Text

Steam Generator Tube Inspection Report for Refueling Outage 18
	ML15051A312
Person / Time
Site:	Byron
Issue date:	02/20/2015
From:	Kearney F; Exelon Generation Co
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
References
	1.10.0101 (ID. 101), BYRON 2015-0013
	Download: ML15051A312 (42)
	v • d • e

Byron Generating Station

. Exeton Generat ion www.exeloncorp.com Rd February 20, 2015 LTR: BYRON 2015-0013 File: 1.10.0101 (ID. 101)

U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, D.C. 20555-0001 Byron Nuclear Power Station, Unit 2 Facility Operating License No. NPF-66 NRC Docket No. STN 50-455

Subject:

Byron Station, Unit 2 Steam Generator Tube Inspection Report for Refueling Outage 18 In accordance with Technical Specification 5.6.9, Steam Generator (SG) Tube Inspection Report, Exelon Generation Company, LLC is reporting the results of the SG inspections that were completed during Byron Station, Unit 2 Refueling Outage 18 (B2R18).

If there are any questions regarding this submittal, please contact Mr. Doug Spitzer, Regulatory Assurance Manager, at (815) 406-2800.

Respectfully, Site Vice President Byron Nuclear Generating Station faklpmc/lzlkjm

Attachment:

Byron Station, Unit 2 Steam Generator Tube Inspection Report Refueling Outage 18, September, 2014

Exelon Generation Company, LLC BYRON STATION UNIT 2 4450 North German Church Road Byron, Illinois 61070 COMMERCIAL OPERATION: August 27, 1987 BYRON STATION UNIT 2 STEAM GENERATOR TUBE INSPECTION REPORT REFUELING OUTAGE 78 September 2014 Mailing Address 4300 Winfield Road Warrenville, IL 60555 Page 1 of 41

TABLE OF CONTENTS Introduction 3 Steam Generator Inspection Scope (TS 5.6.9.a) 3 Degradation Mechanisms Found (TS 56.9.b) 5 Nondestructive Examination Techniques Utilized for Each Degradation Mechanism Found During B2R18 (TS 5.6.9.c) 6 Location, Orientation (if linear), and Measured Sizes of Service Induced Indications (TS 5.6.9.d) 6 Plugging Summary (TS 5.6.9.e and TS 56.9.f) 9 Results of Condition Monitoring (TS 5.6.9.g) 10 Primary to Secondary Leakage Assessment (TS 5.6.9.h and TS 5.6.9.i) 11 Results of Monitoring for Tube Axial Displacement (Slippage) (TS 5.6.9.j) 11 Attachment A Westinghouse Model D-5 Tube Support Configuration 12 Attachment B Anti-Vibration Bar Wear Indications 13 Page 2 of 41

Introduction Byron Station, Unit 2 operates with four (4) Westinghouse Model D-5 recirculating steam generators (SGs) in the four loop pressurized water reactor system. Each SG contains 4570 thermally treated Alloy-600 U-tubes that have a nominal outside diameter of 0.750 inches and a nominal thickness of 0.043 inches. The tubes are hydraulically expanded into the full depth of the tubesheet. The tubes are supported by stainless steel quatrefoil support plates (TSP5) and chrome plated Alloy-600 anti-vibration bars (AyEs). The tube support plates within the pre-heater region are 0.75 stainless steel drilled hole baffle plates. The lowest tube support plate (TSP 01) on the hot and cold leg sides is a flow distribution baffle that is also stainless steel of 0.75 thick with enlarged drilled tube holes to distribute the feed flow. See Attachment A, for a diagram of the D-5 SG tube support plate (TSP) and AVE Configuration.

Technical Specification (TS) 5.5.9.d provides the requirements for SG inspection frequencies and requires periodic SG tube inspections to be performed. TS 5.5.9.d requires that 100% of the Unit 2 tubes are to be inspected at sequential periods of 120, 96, and thereafter 72 effective full power months (EFPM). The first sequential period shall be considered to begin after the first inservice inspection of the SGs.

At the start of B2R1 8, the Byron Unit 2 SGs had accumulated a total of 24.23 EFPY, and 23.04 EFPY (276.5 EFPM) since the first inservice inspection (ISI) during B2RO1.

Therefore, Unit-2 was at 60.5 EFPM within the first 72 EFPM period (= 276.5 120 96). -

The B2R1 8 SG inspections were performed consistent with the Electric Power Research Institute (EPRI) PWR Steam Generator Examination Guidelines: Revision 7, applicable interim guidance and Nuclear Energy Institute (NEI) 97-06, Steam Generator Program Guidelines Revision 3. The field inspection activities were conducted from October 2, 2014 through October 10, 2014 by the Westinghouse Electric Company LLC.

Steam Generator Inspection Scope (TS 5.6.9.a)

Byron Unit 2 Refueling Outage 18 (B2R18) was the last inspection outage of the first 72 EFPM period, the next SG inspection is planned for B2R20, which will be the second refuel outage within the second 72 EFPM period. The following inspections were performed during B2R18 to ensure that 100% of the tubes were inspected during the period as required by TS 5.5.9.d.

Eddy Current Scope:

All in-service tubes in all four SGs were inspected full length with a bobbin coil probe, with the exception of the Row 1 and Row 2 U-Bend region, which were inspected as part of the 50% +PointTM probe inspections.

50% of the Row 1 and Row 2 U-Bends in all four SGs were inspected from the top tube support plate (TSP) on the hot leg side to the top TSP on the cold leg side with a +PointTM probe. In addition to the 50% Row 1 and Row 2 U-Bends inspection, all nine (9) tubes identified with manufacturing artifacts were inspected with a +PointTM probe.

Page 3 of 41

50% of the hot leg bulges 18 volts and over expansions 1.5 mils within the top 15 inches of the hot leg tubesheet in all four SGs were inspected with a

+PointTM probe.

50% of the tubes in all four SGs were inspected in the hot leg tubesheet region from 3 inches above the top-of-tubesheet (TTS) to 15 inches below the TTS, which encompassed the hot leg TTS expansion transition region (÷1-3 inches),

with a X-Probe. This fully encompasses the H* region of TTS -14.01 inches.

Three tubes deep around the entire periphery, including no tube lane and T-slot, in all tour SGs were inspected in the hot/cold leg TTS region up to the flow distribution baffle plate (TSP O1H/O1C).

All 39 in-service tubes previously identified in all four SGs as having potentially increased residual stress (-2 sigma tubes) were inspected with a X-Probe in the hot leg tubesheet region from 3 inches above the TTS to 15 inches below the TTS, as well as at all quatrefoil and baffle TSP intersections.

50% of the pre-heater baffle plate hydraulic expansion transitions (+/- 3 inches) in all SGs at baffle plates 02C and 03C were inspected with an X-Probe.

Additionally, the pre-heater baffle plate hydraulic expansions at baffle plate 02C in the peripheral tubes near the flow blocking region (also called corner tubes) of the pre-heater in all SGs were inspected with an X-Probe. This location has historically been known as a location in which secondary side foreign objects (FO) may collect due to the flow conditions in the region.

Dent/Ding Special Interest Scope:

100% Plus-Point of U-Bend dents/dings >5.0 volts in all SGs.

50% Plus-Point hot/cold leg dents/dings >5.0 volts in all SGs.

All in-service tubes containing historical foreign object wear in all four SGs were inspected with a +PointTM.

Diagnostic examinations were conducted on non-quantifiable indications that were detected by the bobbin coil examination. Diagnostic examinations were also conducted on tubes in the vicinity of potential foreign objects in order to determine the extent of tubes potentially affected by the objects. These examinations were periormed with a +PojntTM.

Monitored all in-service tubes for axial tube displacement (slippage) in both the hot and cold leg tubesheet region.

Other SG Inspections:

Visual lnsiection of Installed Tube PluQs All previously installed tube plugs were visually inspected for signs of degradation and leakage. In addition, all plugs installed during B2R18 were also visually inspected, and the installation parameters were reviewed for acceptable installation. No anomalies were found.

Page 4 of 41

SG Channel Head Bowl Visual lnsections- Each SG primary channel head was visually examined in accordance with the recommendations of Westinghouse NSAL 12-01 and NRC IN 2013-20 for evidence of breaches in the cladding or divider to channel head weld and for evidence of wastage of the carbon steel channel head. No evidence of cladding or weld breaches or evidence of channel head wastage was identified.

Secondary Side Visual lnsQections SG secondary side US sludge lancing was performed during B2R1 8. Additionally, a full FOSAR of the pre-heater baffle plate TSP 02C was performed in the 2A & 2D SG preheater high flow regions on the pre-heater tube support baffle plate TSP 02C. The high flow regions included the preheater waterbox rib and cap plate region. No evidence of degradation or anomalies was reported in the 2A & 2D SG preheater.

Visual inspection was performed of the 2B SG upper bundle. The upper bundle region was inspected through the 2.5 inspection ports located at the 8th and 11th TSPs. The inspections included the tube lanes and four in-bundle columns at each TSP. The purpose of these inspections was to assess the general condition of the upper tube bundle, which included quatrefoil blockage. The quatrefoils on the cold leg were mostly free of blockage with trace amounts of scale with some areas starting to develop around the edges. Some of the quatrefoils on the hot leg side were partially restricted with tube bundle deposits. However, this condition was comparable to that found in the previous inspection performed during B2R1 6. No other anomalous structural conditions, foreign objects, or erosion was observed in the visual inspections of the Upper Bundle in the 2B SG.

Visual inspections supplemented, as applicable, by ultrasonic thickness measurements of the 2A and 2D SG primary and secondary side moisture separator regions were performed during the B2R18 outage. The results show erosion wear is present and progressing slowly. The minimum component thickness measured by ultrasonic measurement techniques was 0.144 inches compared to the nominal component thickness of 0.25 inches. No repairs were required, and it was concluded that a 2-cycle inspection interval was justified with no adverse consequences for the moisture separators in all 4 SGs.

Degradation Mechanisms Found (TS 5.6.9.b)

The Table below provides a summary of all the degradation, by mechanism, identified during the B2R18 inspections (all mechanisms were present during previous inspections). No evidence of any cracking was found.

Summary of B2R18 Degradation Indications by Mechanism Degradation Mechanism SG2A SG 2B SG 2C SG 2D Total AVE Wear 248 405 277 183 1113 TSPWear 0 4 5 2 11 New Secondary Side EQ 2 9 2 3 16 Wear Historical Secondary Side EQ 1 0 1 5 Wear_Remaining_In_Service Page 5 of 41

Nondestructive Examination Techniques Utilized for Each Degradation Mechanism Found During B2RJ8 (TS 5.6.9.c)

All SG eddy current examination techniques used (see Table below) were qualified in accordance with Appendix H or Appendix I of the EPRI PWR SG Examination Guidelines Revision 7. Each examination technique was evaluated to be applicable to the tubing and the degradation mechanisms found in the Byron Station Unit 2 SGs during B2R18.

EPRI APPENDIX H & APPENDIX I TECHNIQUES EPRI ETSS Technique Probe Degradation Applicability1 Rev ETSS Detection/Sizing Volumetric Wear at Foreign Object Wear 21998.1 4 +PointTM Locations and Freespan Flaws (Volumetric Indications)

Detection/Sizing Volumetric Pitting at Freespan Detection Volumetric Wear at Foreign Object Wear 27091 223 1 B bbin Locations and Freespan Flaws (Volumetric Indications)

Detection/Sizing Volumetric Wear at AVBs and Drilled 96004.3 13 Bobbin TSPs Detection Volumetric Wear at Broached TSPs Sizing Volumetric Wear (Flat at a Single Land) at 96043 2 1 B bbin Broached TSPs Detection/Sizing Volumetric Wear (Tapered) at TSPs, 9691 10 +PointTM Foreign Object Wear Locations, and Freespan Flaws (Volumetric Indications)

Notes: 1. TSP Tube Support Plate AVE Anti-Vibration Bar PLP Possible Loose Part

2. Extended inspection technique qualified for A690 tubing to A600 tubing because the relative current density is +/-10% or smaller.

3. Extended technique for use with a PLP present within a structure or freespan because the mix suppresses structures and/or loose part signals.

4. Extended inspection technique to detectlsize freespan foreign object wear because signal characteristics resemble tube wear from a broached TSP.

Location, Orientation (if linear), and Measured Sizes of Service Induced Indications (TS 5.6.9.d)

Anti-Vibration Bar (AVB) Wear Tube degradation was found during bobbin coil examination in the U-Bend region due to fretting of the AVE on the outer surface of the tube. A total of 1113 indications were reported. Four (4) tubes had indications of AVB wear exceeding 40% TW plugging limit, and the four tubes were removed from service by mechanical tube plugging. The largest AVE wear indication found during B2R18 was measured at 46% through-wall (TW). The Table below provides a summary of AVB wear degradation. Refer to Attachment B for detailed locations and sizing for all AVE wear indications.

Page 6 of 41

B2R18 AVB Wear Summary SG 2A SG 2B SG 2C SG 2D

of md. #oflnd. #of md. #of md.

10-39%TW 248 402 277 182

>=40%TW 0 3 0 1 TOTAL 248 405 277 183 Note: 1) Reporting criteria is i 5%TW for AVB; however, historical indications previously reported were re-sized during B2R16 and some were sized smaller (i.e. <15%TW).

Mechanical Wear at Tube Suort Plates (TSPs) Tube degradation attributed to wear in the pre-heater TSPs, which are drilled support baffle plates was identified. Additionally, tube degradation attributed to wear at broached quatrefoil TSPs. Two (2) tubes in the 2C SG were identified as new Tapered Wear, with nine (9) tubes having pre-existing TSP wear in the 2B, 20, & 2D SGs. The depth of the TSP wear ranged from 5% TW to 31% TW. The Table below provides a summary of the tubes that contain indications of pre-heater or quatrefoil TSP wear as identified during B2R18.

B2R18 TSP Wear Summary SGID Row I Col Volts md I Per1 Locn I Inchi I Wear Type Pre-Existing TSP Wear Indications 2A None 2B 15 91 0.23 PCT 5 060 0.0 Drilled Hole 2B 47 75 0.26 PCT 6 020 0.47 Drilled Hole 20 48 35 0.25 POT 6 020 0.39 Drilled Hole 2D 48 63 0.30 POT 7 050 0.0 Drilled Hole Flat-Single 2B 46 50 1 .45 POT 18 070 -0.02 Land Flat-Single 2B 47 54 1.56 POT 21 070 -0.32 Land Flat-Single 20 49 65 2.87 POT 31 070 -0.55 Land Tapered Single 20 49 73 0.40 POT 21 070 -0.42 Land Tapered Single 2D 48 63 0.36 POT 22 07C 0.50 Land Newly_Identified_TSP_Wear_Indications 20 48 63 0.41 22 070 -0.46 Tapered Single POT Land 2C 49 64 0.52 25 070 0.41 Tapered Single POT Land Note 1) Reporting criteria is 6%TW br preheater drilled hole wear; however, historical indications previously reported were re-sized during B2R16 and some were sized smaller (i.e. <6%TW).

ForeiQn Obiect Wear A total of 21 indications of secondary side foreign object (FO) wear were identified in 19 tubes. The indications ranged from 9% TW to 34% TW. Five (5) indications had been identified in previous outages and were allowed to remain in service based on being below the 40% TW plugging limit Page 7 of 41

and showing no significant change in eddy current signal response outside of typical eddy current repeatability uncertainty. All FOs associated with the historical wear flaws were removed in a prior outage.

Foreign object wear, while not affecting a large population of tubes, is an existing degradation mechanism in a majority of operating SGs including those at Byron Unit 2. FOs have also been reported as the cause for tube wear at Byron Unit 2 in prior inspections. Therefore, wear due to FOs is classified as an existing degradation mechanism and is addressed in the SG inspection plan for B2R18.

The Table below lists the data record for the eddy current signals corresponding to foreign object wear indications detected during B2R18. A total of 21 indications of foreign object wear were identified during B2R1 8. Five (5) of the indications were historical in nature and the remaining were newly reported during B2R18.

One (1) tube in SG 2D (R12-C61) was preventively plugged and stabilized due to the presence of tube wear and a PLP signal.

B2RJ 8 Foreign Object Wear Summary Affected NDE Tubes Legacy SG TSP Location Depth Comment or New Row Col (%TW) 2A 8 76 07H -1.13 New 18 Object Not Present 2A 39 50 02C 236 New 14 Object Not Present 2A 45 67 02C 1.05 Legacy 18 Object Not Present 2A 45 67 02C 2.83 Legacy 21 Object Not Present 2A 47 67 02C 0.47 Legacy 23 Object Not Present 2B 37 74 07H -1.05 New 16 Object Not Present 2B 39 66 02C 0.91 New 10 Object Not Present 2B 38 66 02C 1.42 New 22 Object Not Present 2B 1 54 02C -0.23 New 27 Object Not Present 2B 38 35 05H -0.49 New 24 Object Not Present 2B 38 35 05H -0.66 New 12 Object Not Present 2B 29 26 O1H 0.58 Legacy 15 Object Not Present 2B 29 25 01 H 0.56 New 11 Object Not Present 2B 35 15 07H -0.67 New 13 Object Not Present 2B 14 4 05H 0.71 New 9 Object Not Present 2C 16 18 O1H 0.53 New 19 Object Not Present 2C 17 18 O1H 0.55 New 14 Object Not Present 2D 6 44 08H -0.7 New 34 Object Not Present Tube Plugged and Stabilized due to 2D 12 61 07H -0.8 New 26 wear and PLP indication 2D 9 76 07H -0.65 New 17 Object Not Present 2D 24 65 02C 1.13 Legacy 30 Object Not Present Page 8 of 41

All newly identified indications of secondary side EQ wear received additional +PointTM inspection of the surrounding tubes to make certain that the wear region was adequately bounded. Additional +PointT inspection was performed on tubes surrounding historical secondary side EQs that could not be confirmed in its originally identified location to ensure that no wear occurred due to the migration of the object. Furthermore, +PointTM inspections were performed on tubes surrounding secondary side FOs to ensure that no wear resulted from the object.

Plugging Summary (TS 5.6.9.e and TS 5.6.9.f)

As a result of the B2R1 8 SG inspections, performed in accordance with TS 5.5.9.d, the modes of tube degradation found were Anti-Vibration Bar (AVB) wear, tube support plate (TSP) wear, and secondary side foreign object (FO) wear. A total of five (5) tubes were removed from service by mechanical tube plugging. The five (5) tubes removed from service, are as follows:

Four (4) tubes were plugged due to having AVB wear exceeding 40% TW Technical Specification 5.5.9.c plugging criteria.

One (1) tube was plugged and stabilized due to foreign object wear in the presence of a PLP indication.

B2R18 Tube Plugging by Degradation Mechanism fTS 5.6.9.e)

Degradation Mechanism - SG 2A SG 2B SG 2C SG 2D Total AVBWear 0 3 0 1 4 TSP/Pre-heater Wear 0 0 0 0 0 Axial ODSCC 0 0 0 0 0 FOWear1 0 0 0 1 1 Preventative 0 0 0 0 0 Total Plugged during B2R18 0 3 0 2 5 Note: 1) One (1) Foreign Object wear tube was plugged and stabilized due to volumetric wear with a Possible Loose Part (PLP) indication.

Tube plugging was conducted in accordance with ASME Section Xl, 2001 Edition through 2003 Addenda. All tube plugging was performed by Westinghouse using an Alloy 690 mechanical tube plugging process in accordance with ASME Section Xl IWA 4713, Heat Exchanger Tube Plugging by Expansion. All plugging was performed in accordance with Westinghouse approved procedures. There are no approved tube repair methods for the Unit 2 SGs. No tube sleeving was performed.

Tube Plugging to Date (Number and Percentage per SG) (TS 5.6.9.f)

SG 2A SG 2B SG 2C SG 2D Total Total Plugged during B2R18 0 3 0 2 5 Total Stabilized during B2R181 0 0 0 1 1 Total Pluggedthrough B2R18 156 142 74 41 413 Total Percent Pluged through 3.41% 3.11% 1.62% 0.90% 2.26%

B2R1 8 Notes: 1) Tube that was stabilized was also plugged.

2) Plugging percent is based on 4570 tubes per SG for all 4 SGs.

Page 9 of 41

Results of Condition Monitoring fTS 5.6.9g)

A condition monitoring assessment was performed for each inservice degradation mechanism found during the B2R18 SG inspection. The condition monitoring assessment was performed in accordance with TS 5.5.9.a and NEI 97-06 Rev. 3 using the EPRI Steam Generator Integrity Assessment Guidelines, Revision 3. For each identified degradation mechanism, the as-found condition was compared to the appropriate performance criteria for tube structural integrity, accident induced leakage, and operational leakage as defined in TS 5.5.9.b. For each degradation mechanism a tube structural limit was determined to ensure that SG tube integrity would be maintained over the full range of normal operating conditions, all anticipated transients in the design specifications, and design basis accidents. This includes retaining a safety factor of 3.0 against burst under normal steady state full power operation primary to secondary pressure differential and a safety factor of 1.4 against burst under the limiting design basis accident pressure differential. The structural limits for wear related degradation were performed in accordance with the EPRI Steam Generator Integrity Assessment Guidelines and the EPRI Steam Generator Degradation Specific Management Flaw Handbook, Revision 1 (Flaw Handbook).

The as-found condition of each degradation mechanism found during the B2R18 outage was shown to meet the appropriate limiting structural integrity performance parameter with a probability of 0.95 at 50% confidence, including consideration of relevant uncertainties thus satisfying the condition monitoring requirements. The NDE measured flaw depths are compared to the structural integrity condition monitoring (CM) limits, which account for tube material strength, burst relation, and NDE measurement uncertainties with a 0.95 probability at 50% confidence. Therefore, the NDE measured flaw sizes are directly compared to the CM limit. No indications met the requirements for proof or leakage testing; therefore, no In Situ Pressure tests were performed during B2R18. In addition, no tube pulls were performed during B2R18.

The sections below provide a summary of the condition monitoring assessment for each degradation mechanism found during B2R18.

AVB Wear- The largest AVB wear indication found during the B2R1 8 inspection was 46% TW as measured by the EPRI Appendix H qualified technique 96004.3, Rev. 13.

This is below the AVB wear structural limits of 72.8% TW, and it is less than the AVB wear CM limit of 63.2% TW. The tube with this indication was plugged in accordance with TS 5.5.9.c SG tube plugging criteria.

Pre-Heater Baffle/TSP Wear- The largest pre-heater baffle plate drilled hole and flat single land wear indication found during the B2R18 inspection was 7% and 31% TW, respectively, as measured by the EPRI Appendix H qualified techniques 96004.3, Rev.

13 or 96043.2, Rev. 1. The above wear are below the drilled hole baffle plate and flat single land TSP wear structural limit of 69.2% TW and 66.8% TW, respectively, and are less than the condition monitoring limits of 59.9% TW and 57.2 % TW, respectively.

The largest tapered single land wear indication found during the B2R18 inspection was 25% TW as measured by the EPRI Appendix H qualified technique 96910.1 Rev. 10.

This wear is below the burst effective depth (tapered single land) wear structural limit of 74.8% TW, and it is less than the tapered single wear Condition Monitoring limit of 65.6% TW maximum depth with a 1.5 degree taper angle and less than the burst effective depth (tapered single land) condition monitoring limit of 55.8% TW.

Page 10 of 41

ForeiQn Object Wear The largest foreign object wear indication found during the B2R18 inspection was 34% TW with axial length of 0.36 inches as measured by the EPRI Appendix H qualified technique 21998.1, Revision 4. This is below the foreign object wear (0.5-inches axial thinning) structural limit of 72.8% TW, and it is less than the foreign object wear (0.5-inches axial thinning) CM limit of 52.5% TW.

Primary to Secondary Leakage Assessment (TS 5.6.9.h and TS 5.6.9.i)

Byron TS 5.6.9.h reporting requirement states:

For Unit 2, the operational primary to secondary leakage rate observed (greater than three gallons per day) in each steam generator (if it is not practical to assign the leakage to an individual steam generator, the entire primary to secondary leakage should be conservatively assumed to be from one steam generator) during the cycle preceding the inspection which is the subject of the report, Byron Station, Unit 2 did not observe any operational SG primary to secondary leakage over the preceding cycle. This is based on chemistry sampling taken from the Steam Jet Air Ejector and liquid SG blowdown sample locations.

Byron TS 5.6.9.i reporting requirement states:

For Unit 2, the calculated accident induced leakage rate from the portion of the tubes below 14.01 inches from the top of the tubesheet for the most limiting accident in the most limiting SG. In addition, if the calculated accident induced leakage rate from the most limiting accident is less than 3.11 times the maximum operational primary to secondary leakage rate, the report should describe how it was determined...,

Byron Station Unit 2 did not observe any SG primary to secondary operational leakage over the preceding cycle, therefore the calculated accident leakage rate from flaws below 14.01 inches from the TTS is not quantifiable.

Results of Monitoring for Tube Axial Displacement (Slippage) (TS 5.6.9.j)

All in-service tubes were monitored for tube axial displacement (slippage) in both the hot and cold leg tubesheet region in accordance with industry developed guidance. This was performed to ensure tubes had not severed within the tubesheet in regions of the tubesheet that were not required to be inspected with +PointTM. The absence of tube sever indications (TSl) from the entirety of the collected bobbin coil inspection data confirms no tubes had tube slippage.

Page 11 of 41

ATTACHMENT A Westinghouse Model 0-5 TSP and AVB Configuration AV2 MS Anti-vibration bars uN rr__f 4rz Sf rIt lic 1OH 4= 4 IOC 09 H 08 H H

zzzm 09 C 08C 07 H ZZZZ22 r, 07C P

18 A 06C 18 05 H USC 04 C Feedwater Inlet 03 H 03 C 02 C 01 H 2lltA 44 fl>F vrn I OIC TS H 2t2 TSC TE H TEC Inlet Outlet Nozzle Manway Note: AVB bars are denoted as AV in the figure Page 12 of 41

ATTACHMENT B Anti-Vibration Bar (AVB) Wear Indications Page 13 of 41

SD - A ANTI -II6PATION AR WEAR INDICATIONS Eyrun 2 82918 C8E 29141301 lo/I9/2014 15:48:20 INSPDATE ScSi CDL VOLTS DES 150 PER CNN LOCN INCNI INCN2 6EGT ENDT PEUA PTYPE CAL 14

+ e----4.----+ 4----4----4 +

2014/10/01 19 5 .73 0 PCT 14 P2 Ala - .20 TEC TEN .610 P46A2C 37 Nj 2914/10/91 23 6 .74 0 PCT 14 P2 Afl -.08 TEC TEN .610 PISA2C 37 Nj 2914110/01 25 7 1.32 0 PCT 20 P2 A12 .03 TEC TEN .610 SIA2C 39 lfl I 2014/10/91 24 8 .47 0 PCT 10 P2 All .27 TEC TEN .610 NIA2C 37 Nj I 2014/10/01 25 8 1.69 0 PCT 24 P2 All .07 TEC TEN .519 56A2C 37 Nj I 2914/10/91 25 6 .73 0 PCT 14 P2 AU -.30 TEC TEN .610 NSA2C 37 Nj 2014/10/01 26 6 .70 0 PCT 13 P2 All .06 .06 TEC TEN .610 PIIAZC 37 Nj 2014/10/01 29 19 3.63 0 PCT 15 P2 All - .35 TEC TEN .610 NSA2C 37 Nj 2014/10/01 29 11 .77 0 PCT 14 P2 AlE .00 TEC TEN .619 NIA2C 39 Nj 2914/10/91 29 11 1.12 0 PCT 16 P2 All .90 TEC TEN .610 NSA2C 39 Nj 2914/10/91 29 12 1,03 0 POT 15 P2 AlE .32 TEC TEN .610 NIA2C 37 Nj 2014110/01 29 12 1.74 0 POT 24 P2 All -.17 TEC TEN .613 KSAZC 37 Nj 2914/10/91 29 13 1.53 0 PCT 22 P2 Al3 .39 TEC TEN .619 FIIA2C 39 Nj 1314/19/01 11 14 1.39 0 PCT 29 P2 All -.42 TEC TEN .610 58A2C 37 Nj 2914/19/01 31 14 1.23 0 POT 20 P2 A14 -.29 lEO TEN .610 55A20 37 Nj 2014/10/91 34 13 2.00 0 PCT 26 P2 AU .02 TEC TEN .610 98A20 37 Nj 2014/10/01 34 14 1.32 0 PCT 17 P2 All .00 TEC TEN .510 NSA2C 37 Nj 2314/10/91 31 15 .62 0 POT 15 P2 All .07 TEC TEN .610 NSA2C 39 Nj 2914/19/91 11 15 .91 0 PCT 15 P2 A14 -.27 TEl TEN .610 SSA2C 39 Nj 2014/10/01 33 15 2.96 0 PCT 25 P2 All .30 TEC TEN .610 58A2C 19 Nj 1 2914/10/91 35 15 1,09 0 PCT 18 P2 Al4 -.28 TEC TEN .610 IAZC 39 Nj 2314/10/01 .35 15 1,14 6 PCT 18 P2 All .00 TEC TEN .610 SSAZC 39 Nj 2314/10/91 36 15 1.31 0 PCT 20 P2 Al4 .00 TEC TEN .610 NSA2C 39 Nj 2014/10/01 15 16 1.66 0 POT 25 P2 AlE -.25 TEC TEN .619 58A24 37 Nj 2014/10/01 15 16 1.51 0 PCT 22 P2 All .07 TEC TEN .610 58A2C 37 Nj 2914/10/01 15 16 1.04 0 PCT 18 P2 AU -.22 TEC TEN .616 N8AZC 37 Nj 2014/10/01 17 16 1.07 0 PCT 18 P2 Ala - .57 TEC TEN .610 teA2C 37 Nj 2014119/01 33 16 1.95 0 PCT 25 P2 AU .37 .00 TEC TEN .610 RSA2C 37 Nj 2914/10/01 33 16 1.42 0 POT 21 P2 A14 -.33 TEC TEN .610 58A2C 37 Nj 2014/10/01 17 17 2.92 0 PCI 11 P2 All -.10 TEl TEN .619 NEA2C 39 Nj 2014/10/01 27 16 1.30 0 PCI 21 P2 All .15 .00 TEC TEN .610 58A2C 37 Nj 2914/10/01 35 18 1.00 0 PCT 17 P2 All .93 TEC TEN .610 A2C 37 Nj 2914/10/91 16 16 1.38 0 PCT 21 P2 AlE .13 TEC TEN .610 N3AZC 37 Nj 2314/10/01 15 18 1.19 0 POT 23 P2 All -.12 TEl TEN .619 NIAZC 37 Nj 2014/10/01 37 18 1.25 0 PCI 20 P2 AlE - .37 TEC TEN .610 NSA2C 37 Nj 2016/10/01 37 18 1.04 0 POT 18 P2 Al4 -.10 TEl TEN .619 NSA2C 37 Nj 2914/10/01 37 19 1.50 0 PCT 22 P2 All .12 TEl TEN .610 ftEAZC 39 Nj 2014110/01 37 19 2.59 0 PIT 29 P2 All -.13 TEC TEN .619 SSA2C 39 Nj 2314/10/91 37 10 1.19 0 PCT 19 P2 A14 .07 TEl TEN .610 NEA2C 39 Nj 2014/10/01 36 19 1.51 0 PCT 22 P2 All .17 TIC TEN .610 A2l 39 Nj I 2014/10/01 36 19 2.05 0 PIT 26 P2 Al4 .10 TEC TEN .610 &SA2C 39 Nj 2914/10/01 17 29 .61 0 PCI 12 P2 Al2 -.33 TEC TEN .619 NSA2C 37 Nj 2314/19/91 37 23 1.66 0 PIT 23 P2 All -.10 TEC TEN .610 55A2C 37 Nj I 2314/10/31 33 20 2.31 0 PCT 25 P2 All .30 .30 TEl TEN .610 NSA2C 37 Nj 2014110/31 38 20 2.12 0 PCT 27 P2 Al2 .30 TEC TEN .619 NSA2C 37 Nj 2014/10/01 35 20 1.09 0 PIT 18 P2 All -.17 TEl TEN .610 56A21 37 Nj

----4-- --4 + +--.-...--.

IN2PDATE 9144 CDL IOLTS DES 150 PER CNN LOIN INCHI INCN2 BEET ENDT PDIA PTYPE CAL 14

+----+ #----4----+----, +----+ 4 Page 14 of 41

29 - A AWTI-I3RATION AR WEAR INDICATION2 3yrn 2 SCRIE CEE 22141381 L3f1312814 14S29 INCPDATE ROW CCL OLT2 OE& ID PER CNN LOON INCNI IVN2 BEGT ENDT P014 PTPE CAL Cj

+ ----4----+---+----4 4. -+----4---- -+

14112191 35 23 1.43 0 PCI 22 P2 4W4 -.37 TEC TEN .513 NSAZC 37 Nj 94119131 35 21 1.65 3 PCI 22 P2 A3 TEC TEN .613 NSAZC 43 Nj 2314/12/31 3.6 21 L35 0 PCI 17 P2 4V4 39 TIC TEN .613 A2c 43 Nj 2914/12)31 37 21 1.32 0 PeT 23 P2 A3 .93 TIC TEN .613 5AZC 43 NI 4/10)91 36 CL 1.45 0 PCT 20 P2 Mi .39 TEC TEN .610 55420 43 Nj 2914/10/91 35 21 L17 3 PCI 20 P2 MI .08 TIC TEN .519 55425 43 NI 2314/10131 35 23 1.04 0 PCI 16 P2 M4 .27 TEC TEN .613 55420 43 NI 2314110)91 39 CL .71 0 POT 12 P2 AWl .21 .30 TIC TEN .619 NSAZC 43 Nj 2023/10.91 39 21 3.83 3 POT 33 P2 AW3 .38 TEC TEN .613 NSAZC 43 Nj 2014/10191 39 21 1.39 3 PCI 23 P2 AV4 .33 TEC TEN .613 NSAZC 43 Nj 2914/10/91 31 22 .81 8 POT 15 P2 AV4 .33 .88 TEC TEN .619 NSAZC 61 Nj 2313/10)91 38 22 1.16 0 POT CL PC MC .38 .90 TIC TEN .619 NSAZC 41 NI 2914110/31 38 22 .77 0 PCI 15 P2 AWl .39 .08 TIC TEN .619 NSAZC 41 Nj 2214110)3.1 40 22 .99 3 PCI 15 P2 AV3 .38 .98 TIC TEN .613 56420 61 Nj 2914/19/91 41 22 3,41 3 PCI 34 PZ MC .35 .83 TIC TEN 513 55AZC 41 Nj 2814)19)91 37 23 2.31 3 PCI 27 P2 MC .33 TIC TEN .613 56420 61 Nj 2314/19/91 37 23 2.48 0 PCI 25 P2 AWl .99 TEC TEN .519 56420 43 Hf 2814/19161 37 23 1.17 0 PCI 16 P2 4W4 .03 TIC TEN .613 NSAZC 63 NI 2014/13/91 38 23 1.93 3 PCI 24. PC AWl .08 TIC TEN .513 584CC 43 Nj 2314/19/91 38 23 .94 0 PCI 15 PC MC .89 TEC TEN .613 NSAZC 63 Nj

314112)91 38 23 2.91 0 PCI 39 P2 AWl .99 TIC TEN .613 56420 43 Nj 2014/13/81 38 23 2.41 8 PCI 27 P2 AW4 .93 TIC TEN .613 fF5420 43 Nj 2014/10)01 39 23 1.43 3 PCI 23 PZ MC .99 TIC TEN .619 fISAZC 43 NI 2914119191 39 23 2.34 0 PCI 27 P2 AWl .23 110 TEN .610 5.5420 43 Nj 2013/19)31 39 23 1.39 0 PCI 17 P2 AW4 .39 TIC TEN .613 ffSAZC 43 Nj 2314119191 42 23 .88 3 PCI 11 P2 MC .93 TEC TEN .613 NEAZC 43 Nj 2314)18181 32 23 1.81 3 POT 15 P2 Ml .33 TIC TEN .613 56420 43 Nj 2014/13131 42 23 72 0 PCI 12 P2 Md .68 lEO TEN .619 NSAZC 63 Hf 2314119131 43 23 75 0 POT 13 P2 AV4 .93 TEC TEN .619 56420 43 Nj 2314/13)91 36 23 1.46 0 PCI 22 P2 MC .30 .90 TIC TEN .613 NSAZC 61 Nj 2314/13)31 36 24 1.12 3 PCI 19 P2 AWl .39 .90 lEO TEN .619 NSAZC 41 Nj 2313113)31 42 24 .58 0 PCI 16 P2 AWl .33 .30 TEC TEN .619 55420 41 Nj 2014/13)81 33 24 .56 3 PCI 16 P2 AW4 .03 .90 TEC TEN .569 56420 41 Nj 2314/19131 42 25 .82 0 PCI 14 P2 AWl .33 TIC TIN .610 564CC 63 Nj 2914113)91 42 25 1.88 3 PCI 17 PD MC ,9 TIC TEN .613 56420 43 Nj 2314119191 42 25 1.33 0 PCI 37 P2 AWl .93 TEC TEN .619 55420 43 Nj 2314119)91 42 25 1.54 3 PCI 24 P2 M4 .33 TIC TEN .613 58420 43 Nj 2914113)81 45 2.5 1.26 9 PCI 29 P2 AWl .93 lEO TEN .619 SSAZC 63 Nj 2014)13)31 45 25 1.39 0 PCI 29 P2 Md .30 TEC TEN .613 SSAZC 43 Nj 2814119191 36 26 1.63 0 PCI 23 P2 MC .93 TIC TEN .513 NSAZC $5 Nj j I 2014)13191 36 27 1.22 3 PCI 19 P2 AV3 .33 .93 tIC TEN .619 56420 47 Nj 2314/10/91 42 27 .86 8 PCI 15 P2 Ml .33 .90 TEC TEN .613 NSAZC 47 Nj 2214110191 47 26 .56 3 PCI 13 P2 Md .98 TIC TEN .619 56420 45 Nj 2813113)31 29 29 .99 0 PCI 17 P2 AWl .33 .30 TEC TEN .610 fISAZC 47 Nj 2314119191 33 30 .84 3 PCI 15 P2 AWl -.46 TEC TEN .619 55420 65 Nj 2914113)91 38 39 76 3 PCI 12 P2 MC .39 TIC TEN .613 564CC 65 Nj 2913113)91 38 30 1,74 0 PCI 24 P2 AWl .39 TEC TEN .613 56420 35 Nj

t-_--*---* *----*---*----*----*----* * *----+----+ 4.

ISPDATE ROW CCL 9LT2 DEG 150 PER CNN LOON INCN1 ISCN2 BEGT 1501 P014 PTYPE CAL LI

+ *--_-..--*-.+--+ 4. +----+---, 4 Page 15 of 41

20 - A APTI-iI5RATI9H EAR WEAR INDICATIOH3 8yrn 2 52915 CEE 29141301 9 + +----+----9-----+----,----9 9 9 9 152?CATE RM CUC .T2 DEG 150 PER CNN tJlCN INCNI IHCN2 SECT ENDT PD3A PTYPE CAL LI 9---. 4

4--.

I 24/10/31 38 33 .84 0 PCI 15 P2 AV4 150 TEN .510 NSAZC 45 HI 2014113/61 37 31 .96 0 PCI 16 P2 A2 30 .09 TEC TEN .613 NSAZC 47 H 2614119/91 37 31 .76 0 PCI 13 P2 AVI - .35 TEC TEN .623 S4AZC 37 HI I I I 2014119/01 42 32 - 0 PCI 11 P2 A3 - TEC TEN .549 0AZC 45 N I I 2914119/91 25 33 .67 0 PCI 12 P2 M2 .93 750 TEN .513 SSAZC 69 HI 2014116/61 41 33 Lii 0 PCI 18 P2 A2 - .41 lEO TEN .610 IAZC 67 HI 2614110/91 41 33 1.65 0 PCI 23 P2 A3 .39 .03 TEC TEN .513 NSAZC 47 H 2614/13/01 42 31 .54 0 PCI 12 P2 A3 - .03 lEO TEN .513 N4AZC 103 HI I I 2014/19/01 29 34 1.39 0 PCI 17 P2 A3 .3 TEC TEN 613 bZC 45 H 1 2014/19/01 38 34 1.02 0 PCI 17 P2 AV2 .09 TEC TEN .619 HSAIC 45 HI 2314/19101 33 34 1.17 0 PCI 21 P2 A3 .99 TEC TEN .613 HSAZC 45 Nt 2914113131 34 36 73 3 PCI 14 P2 A1!4 .03 TEC TEN .619 NSAZC 45 H I 2014/19/31 20 35 .89 0 PCI 14 P2 A1 .03 TEC TEN .613 NSAZC 49 H 2014110161 29 35 .92 3 PCI 15 P2 A3 .33 150 TEN .616 NSAZC 40 NI I I I 2614/19101 39 35 .96 0 PCT 10 P2 A3 .33 .00 TEC TEN .619 SEA2C 47 N I I I 2914/19/01 43 42 59 0 PCI 11 P2 AV2 .33 TEC TEN .513 HSAZC 57 H 2014119/31 42 42 .76 0 PCI 16 P.2 AV2 .36 750 TEN .510 H4AZC 57 N I 2014/10/31 43 46 .96 0 PCI 16 P2 A1 .09 lEO TEN .643 AZC 55 Hi 2914/19/01 39 46 fiO 9 PCI 13 P2 A2 .30 lEO TEN .613 H8AZC 55 I 2614119/01 33 46 3.34 0 PCI 33 P2 A3 .30 TEC TEN .613 HEAZC 55 H I I 1 2013/10/91 31 53 1.33 0 PCI 23 P2 A2 .33 TEC TEN .613 HSAZC 55 H I I I 2613/10/31 25 5j .95 0 PCI 15 P2 AV4 -.67 TEC TEN .619 N8AZC 53 N 1 2014119/01 33 55 .84 0 PCI 13 P2 AV4 -.11 TEC TEN .513 148A20 59 U

.2614/19/61 32 56 .76 0 PCI 15 P2 AV3 - .27 lEO TEN .513 IAZC 57 N I I I 2313(19/91 44 55 1,86 0 PCI 26 P2 A3 -.43 TEC TEN .613 NSAZC 57 H 2014./10/01 43 56 1.34 0 PCT 22 P2 A04 -.28 TEC TEN .613 NSAZC 57 N I F I 2014/10/01 34 59 .83 3 PCI 17 92 AV4 .99 .63 lEO TEN .519 5AZC 56 NI 1 2014/10/01 44 59 1.46 0 PCI 19 P2 AV3 .55 TEC TEN .613 HOAZC 59 Ni I 2914/19/61 47 59 1,22 0 PCI 17 P2 Mi .39 .30 TEC TEN .519 HSAZC 56 H 1 2014113/91 9 61 1.34 0 PCT 16 P2 A4 .26 750 TEN .613 HOA2C 27 NI 2014/19/61 42 61 .79 0 PCT ii P2 Ml .59 lEO TEN .619 NOAZC 63 NI 2314/19/01 34 63 1.13 0 PCI 16 P2 M2 .31 .00 TEC TEN .610 HSAZC 63 Nt 2913/19/01 34 53 .96 0 PCI 16 P2 AW3 .13 .63 TEC TEN .610 HSAZC 63 N 2914110/91 34 61 .99 0 PCI 14 P2 A4 .20 .00 TEC TEll .613 5AZC 03 NI 2914/19/31 23 63 1.31 0 PCI 29 P2 Mi .30 TEC TEN .653 N3AZC 29 HI I I I 2614l10/31 31 64 1.33 0 PCI 29 P2 M4 - .24 750 TEN .610 AZC 25 Hi I I 2914.119/31 33 64 1.19 0 PCI 19 P2 MI -.26 TEC TEN .619 AZC 61 H I I 2013.119/91 45 63 .82 0 PCT 15 P2 M2 .98 TEC TEN .513 H8AZC 51 N 2914119/01 46 64 2.32 0 PCI 32 P2 AV3 -.11 TEe TEN .613 NSAZC 61 H I 2314119/91 45 54 3.97 0 POT 37 P2 AV4 -.31 lEO TEN .513 NSAZC Si Hi I I I 2034/13/91 40 66 1,49 0 PCI 22 P2 Ml -.35 TEC TEN .610 NSAZC 61 HI 1 2313/10/01 43 65 .95 0 POT 18 P2 M2 .. 18 lEO TEN .623 SEAZC 61 H 9... +----+----+

4--+ 4 4 I IHCPDATE POW CDL OCT2 0E6 150 PER CNN LOCH IHCNI tiCN2 SECT ElIOT PDSA PTYPE CAL LI 9 9---, 4 _--+ 4 4----. +

Page 16 of 41

DI - A AHTt-VISRATION BAR WEAR INDICATIONS 8yrn 2 82R18 C6E 20141001 13(16)2014 15$220 4.- +----, -----+-+----+----+-- +

I IPOATE ROW CDL VSLT2 059 IHO PER CNN LOCH IHCNL INCH2 6EGT E{DT P034 PTYPE CAL LI

. 4. * + -+

I 2614f13101 31 57 1.16 0 PCT 13 P2 AV4 23 TEe TEN .610 N3AZC 25 HI j 2314110101 33 53 .93 0 PCI 14 P2 AV2 .36 TEe TEN .610 88A2C 27 HI 30 .74 3 PCI 12 P2 AV3 )21 TEC TEN .613 1SA2C 27 Hi 2314)10131 33 69 1.46 3 PCT 20 P2 A2 -.11 TEe TEN .510 NSA2C 27 HI 2314/13/01 33 69 1.36 0 PCI 16 P2 AV3 -.13 TEC TEN .510 NSAZC 27 U 1 2314/10)01 37 63 1.15 0 PCI 16 P2 AVI -.38 .00 TEC TEN .610 NEA2C 63 H I 2014(10/01 30 70 .94 3 PCI 15 P2 A12 .13 TED TEN .310 H6AZC 27 HI 1 2314/13)01 33 70 .53 0 PCI 9 P5 A3 .00 TEC TEN .610 HSAZC 27 NI 2314113)01 30 70 .79 0 PCI 13 P2 A4 - .35 TEC TEN .813 HSAZC 27 NI I 2314/13131 38 72 2,24 3 PCI 26 P2 AJ3 .13 TEC TEN .613 H8A2C 61 H j 2314/13/01 38 72 1.24 0 PCI 21 P2 A14 .05 TEC TEN .610 N3AZC 61 HI I I 2314/13/01 36 73 .94 3 PCI 14 P2 A2 .25 .33 TED TEN .610 8AZC 63 HI I 2014110)01 36 73 3.15 0 PCI 31 P2 AW3 -.15 .60 TEC TEN .610 HSA2C 63 NI 2314/13)01 32 78 1.33 0 PCI 23 P2 Ad3 .33 TED TEN .613 H8A2C 27 HI I t 1 2014110)01 32 79 1.12 6 PCI 16 P2 A3 -.15 .30 TEC TEN .610 ftOAZC 63 HI 1 2014I10/01 12 79 2.24 0 PCI 25 P2 A4 -.05 .30 TEC TEN .510 H8A2C 63 Hi I I 1 2314110/03 44 81 4.56 0 PCI 38 P2 A2 .30 TEC TEN .310 NSAZC 67 Hi 1 2014/10/01 44 31 3.31 0 PCI 34 P2 An .33 TEC TEN .610 HSAIC 67 Nt I I 2014/10/01 40 82 2.31 0 PCI 29 P2 A .22 TEC TEN .610 H3AZC 65 HI j 2314113101 43 82 1.23 0 PCI 20 P2 A -.36 TEC TEN .610 HSAZC 65 HI 2314(13)01 44 82 .51 0 PCI 13 P2 A .36 TEC TEN .610 NEAZC 65 HI f 2014(13)01 39 84 1.17 0 PCI 20 P2 AV2 -.31 TEC TEN .510 NEAZC 65 HI I I f 2014113)01 41 84 1.39 0 PCI 19 P2 Ad2 -.35 TEC TEN .513 H3AZC 85 NI 2314/13)31 41 64 1.31 0 PCI 21 P2 A .20 TEe TEN .813 H3AZC 65 NI f 2014(10)01 27 65 1.16 0 PCI 20 P2 A -.03 TEC TEN .510 N6AZC 71 Ht 1 2614/13/01 27 65 3.46 3 PCI 33 P2 A -.05 TEC TEN .613 AZC 71 HI 2614(13/31 27 85 .90 0 PCI 17 P2 A .00 TEC TEN .610 NEAZC 71 HI 2014113/31 39 85 1.43 0 PCI 22 P2 A .08 TEC TEN .613 NSAZC 71 HI I I I 2314/13/01 43 85 1.56 3 PCI 23 P2 A -.30 TEC TEN .613 N8AZC 71 Hi I I J 2614(10/61 41 85 1.56 0 PCI 24 2 A(2 .00 TEC TEN .510 NSAZC 71 HI 2314113)31 41 55 2.54 0 PCI 33 P2 A .35 TEC TEN .513 N3AZC 71 NI 2014/10)31 41 85 .06 0 PCI 18 P2 A3 - .35 TEC TEN .510 NSA2C 71 HI j 2314/13)31 39 IS .74 0 PCT 14 P2 A .03 .30 TEC TEN .513 IA2C 69 HI I I 2614(13/31 41 83 1.07 0 PCI 13 P2 A .30 .63 TEC TEN .513 NSAZC 59 H 1 2014110)01 44 86 .87 0 PCI 16 P2 AV2 .33 .60 TEC TEN .513 HSAZC 69 H 2314113)01 44 36 2.13 3 PCI 27 P2 A .33 .30 TEC TEN .613 NSAZC 69 HI 1 2614(10/01 44 63 2.17 0 PCI 27 P2 A .03 .33 TEC TEN i3 NSA2C 59 NI I I 1 2614110/01 34 83 .66 0 PCI 17 P2 AV2 -.13 TEC TEN .613 NSAZC 71 HI I 2614113)31 34 59 .71 3 PCI 15 P2 A -.35 TEC TEN .613 NSAZC 71 NI I I 2014113/33 39 59 3,52 3 PCI 34 P2 AV2 10 TEC TEN .613 NSAZC 71 Hi t 2314113/01 39 89 4.58 3 PCI 33 P2 A .30 TEC TEN .513 NSA2C 71 Ni I 2014110)31 39 89 1.77 3 PCI 25 P2 A .16 TEC lEN .510 HSA2C 71 HI I I 1 2014/10/01 41 89 .30 3 PCI 17 P2 Ad2 -.33 TEC TEN .513 HSAZC 71 NI 1 2014116/01 41 89 .81 0 PCI 16 P2 AV3 .05 TEC TEN .513 NSAZC 71 NI j 2314110/01 45 69 1.89 3 PCI 24 P2 A -.27 TEC TEN .513 NSAZC 71 HI I 2314/13)01 34 90 1.36 0 PCI 21 P2 A .00 .30 TED TEN .610 HSAZC 69 HI

+ ,----+----*----+----+----* +----*----+ +

j IN2PDATE ROW CDL nLTS DES INO PER CNN LOCH INCHI INCN2 8EGT SHOT POIA PTYPE CAL LI

*----+ *---, +----+---4 + +--+---* *

Page 17 of 41

29 - A ANTI-VIERATION EAR WEAR IUOIOATXCN2 2 62R18 CEE 20141001 110/2014 15,4th29 INOPCATE ROW CCL CLT2 DEG iNC PER CNN LOON INCHI 1110112 EEGT ElIOT PDIA PTYPE CAL 1.1

+----+----4 ,----*----+ +----, +----÷----* +

I Z014/19/01 40 99 1.86 0 POT 25 P2 A2 .99 .03 TEC TEN .610 %3AZC 69 Nj 914/1Q)G1 49 99 1.81 9 POT 25 P2 AY% .09 .00 TEC TEN.. 8.10 1IBAZO 39 Nj 2314/19/34 40 90 1.11 0 POT 18 P2 A$ .03 .30 TEC TEN .610 IAZC 59 Nj I 2014/19/01 44 99 1.37 0 POT 25 P2 AV2 .93 .86 TEC TEN .610 N2AZC 69 Nj I 2014/10/91 44 90 3.36 0 POT 35 P2 A13 .09 .00 TEC TEN .610 NSAZC 59 Nj 2014110101 34 91 1.04 0 POT 19 P2 AV3 .93 TEC TEN .610 MSAZC 71 Nj 2014/10/01 49 91 1.31 0 POT 21 P2 AV2 -.25 TEC TEN .610 N6AZC 71 Nj I 2914/19/01 40 91 3.76 0 POT 35 P2 A3 .09 TEC TEN .610 lAZC 71 Nj I 2014110191 41 91 4.96 3 POT 39 P2 AV2 .93 TEC TEN .610 N3AZC 71 Nj 2014/19/31 41 91 1.99 0 POT 13 P2 AV3 .15 TEC TEN .619 lAZC 71 Nj I I I 2914/49/01 40 92 1,91 0 POT 17 P2 A92 .99 .90 TEO TEN .610 NEAZC 69 Nj 2014/19)91 49 92 .84 0 POT 15 P2 AVI .00 .90 TEC TEN .619 NSAZO 69 Nj 1 2014/19/91 41 92 2.22 0 POT 27 P AY2 .99 .00 TEC TEN .610 lAZC 69 Nj 1 2914/19101 41 92 1.35 3 POT 21 P2 N/S .00 .00 TEC TEN .619 EBAZO 69 HI I 2914/19101 41 92 1.69 0 POT 24 P2 A4 .03 .99 TEC TEN .610 AZC 59 Nj 2014/19/91 34 94 .82 0 POT 16 P2 A2 .ZZ TEC TEN .610 113*20 7% Nj I 2014/10/91 49 94 1.32 0 POT 21 P2 AV1 .45 TEO TEN .610 N6AZO 73 Hj 2014/10/01 39 94 1.17 0 POT 20 P2 A/2 -.26 TEC TEN .810 116AZ0 73 Nj:

2014/19)01 39 94 4.36 3 POT 38 P2 N/I 93 lEO TEN .619 NEAZC 73 Nj I I I 2914/19/01 34 95 .84 0 POT 13 P2 AW2 .00 TEO TEN .619 118*20 75 Nj I F 2014/19/91 36 95 1.11 0 POT 15 P2 N/S .93 TEO TEN .613 11BAZC 75 Nj 2013/10/01 .36 95 .95 0 POT 14 P2 AV4 .03 TEC TEN .610 118*20 75 HI F 2014/10/91 40 95 2.48 3 POT 27 P2 N/i .00 lEO TEN .619 118AZ0 75 Nj 2014/10/01 43 96 4.36 9 POT 37 P2 M2 .03 lEO TEN .610 N8AZO 75 Nj I 2914/13/01 40 95 3.37 0 POT 32 P2 N/3 .99 TEC TEN .810 N8AZO 75 Nj 014/L3/01 40 95 3.14 0 POT 31 P2 AV4 .00 lEO TEN .619 113*10 75 Nj 2014/13/01 34 96 L74 0 POT 25 P2 N/I .96 lEO TEN .610 115*20 73 Nj.

2314/19191 38 96 .96 9 POT 15 P2 N/I -.29 TEO TEN .610 118AZC 73 HI 1 2014/13/31 39 96 1.29 0 POT 20 P2 N/S .19 TEC TEN .610 1AZC 73 Nj 2014/10/91 39 96 1.13 9 POT 29 P2 A4 -.15 lEO TEN .610 116*20 73 Nj.

1 2914/19/31 3? 98 2.87 0 POT 32 P2 N/I .00 lEO TEN .619 118*20 73 Nj 2014/13/01 37 93 3.06 0 POT 33 P2 N/S .43 lEO TEN .610 68*10 73 Hj I 2014/13/01 37 98 77 0 POT 15 P2 N/4 .99 TEO TEN .613 N8AZC 73 Nj I 2014/43/01 3.5 93 1.07 0 POT 10 P2 N/i -.13 TEC TEN .610 lAZC 73 Nj 1 2014/10/31 38 98 2.49 3 POT 39 P2 N/I .51 TEO TEN .610 N8AZO 73 Nj F 2014/13/91 33 98 1.46 0 POT 22 P2 N/I -35 TEO TEN .610 II3AZO 73 Nj.

I I 2914/13101 23 99 1.12 0 POT 16 P2 N/I .90 lEO TEN .610 118AZC 75 Nj:

2314/10/31 32 99 .98 0 POT 14 P2 *93 .90 lEO TEN .610 E5AZS 75 Nj 2014/10/31 34 99 1.01 0 POT 15 P2 N/I .90 TEO TEN .613 NEAZC 75 Nj F 2014/13/01 3? 99 1.8% 0 POT 22 P2 *93 .03 TEC TEN .619 NSAZC 75 Nj 2014110/91 35 100 1.14 0 POT 19 P2 *93 .05 TEO TEN .610 116*20 73 Nj I 2014/13/01 31 191 1.67 9 POT 23 P2 *92 .33 TEO TEN .610 N6AZO 75 Hj 20141C3/01 31 101 2.77 0 POT 29 P.2 *13 .09 TEC TEN .610 N6AZC 75 Nj 2014/10/01 33 102 .74 0 POT 15 P2 *94 .90 TEC TEN .610 113*20 73 Nj 2014/10/31 13 103 1.93 0 POT 23 P2 *92 .90 TEC TEN .613 NSAZO 75 Nj 2014110101 31 103 1.96 0 POT 23 P2 A92 .00 lEO TEN .610 115*20 75 Nj 2014/13/01 31 10% 2,10 0 POT 24 P2 N/S .09 lEO TEN .619 NEAZO 75 Nj 4 + 4 I IN2POATE ROW 004 90412 DEC 1110 PER CNN LOON iNCH! 1110112 SECT ElIOT P03* PTVPE CAL Lj

+----4----4 + +----+----+----* +----4 + 4 Page 18 of 41

CC - A ATI-5RAT!CN AR WEAR INVICATICNC Oyr*n 2 52916 OSE 29141901 /19)2014 15$529 I INCPOATE ROW COL WOLTC CEG INC PER ChN LOCN INCHI INCN2 SECT SNOT POIA PTVPE CAL Lj I 2914/13/91 27 104. 1.35 0 POT 22 P2 A2 .31 TEC TEN .513 S3AZC 73 Nj 14/19)01 20 194 1.99 0 POT 19 P2 AV4 -.33 TEC TEN .813 8AZC 73 Nj I j 14/13/31 29 104 .00 0 POT 10 P2 AWl - .33 TEC TEN .813 48AZC 73 Nj I I 2914/13/31 30 194. 1.23 9 POT 23 P2 AWZ -.37 TEC TEN .813 NOAZC 73 Nj 2814/10)31 39 134 .79 0 POT 1 P2 AWS -.38 TEC TEN .513 0AZC 73 Nj I I 2914/13/31 23 195 1.78 3 POT 25 P2 AW:3 .09 .03 lEO TEN .813 NOAZO 79 Nj 2914/13/91 28 135 1.70 0 POT 25 P2 AW4 .33 .00 TEC TEN .810 NSAZC 79 Nj 2913/10/01 33 105 1.11 0 POT 19 P2 AW2 .33 00 TEC TEN .813 NOAZC 79 Nj 2914/10/01 25 106 95 9 PCI 17 P2 AWl .33 750 TEK .519 NSAZC 73 Nj Z014/L9/91 25 106 .04 0 POT 15 P2 AWl .13 lEO TEN .819 NOAZO 73 Nt 2313/13/91 25 106 65 0 POT 13 P2 AWl .39 TEC TEN .619 NOAZC 73 Nt t I 2914/L0/OL 27 136 2.17 0 POT 28 P2 AWl -.28 .33 TEC TEN .510 NSAZC 77 Nj 2914119/91 27 196 1.57 0 POT 23 P2 AW2 .28 .00 lEO TEH .613 NSAZC 77 Nj 2314/13/91 27 136 2.54 3 POT 30 P2 AWl .35 .03 TEC TEN .610 (EAZC 77 Nj 2914/19/91 27 106 .92 0 POT 17 P2 AW4 35 .3 TEC TEN .619 NSAZC 77 Nj 2013110/01 25 107 1.25 0 POT 20 P2 AWZ .09 .30 lEO TEN 610 NSAZC 73 Nj 2014/10/01 28 137 1,63 0 POT 23 P2 AW:3 .39 .90 lEO TEH .510 5AZ6 79 Nj I 2914/13/31 22 109 1,27 0 POT 23 P2 AW4 .30 .00 lEO TEN 510 NEAZO 79 Nj 2314.110/91 23 109 .91 0 POT 17 P2 AWl .39 .30 TEC TEN .613 NOAZO 79 Nj I 2314.110/31 23 139 1.51 0 POT 23 P2 AV4 .39 .90 lEO TEN .613 NBAZC 79 Nj

+----4----4 4.. 4----, 4----, 4 INCPDATE ROW CCL WOLTO DEC IND PER CNN LDCN 15131 INCNC SECT ENDI PDIA PTVPE CAL lj

----, 4 + ..____

Page l9of 41

23 - B ANTi-VIBRATION 8AR WEAR INOICATION2 Byru 2 52R18 CEE 20141901 10i10?2914 154620 I If+2PDATE ROW COL WOt.T2 DEG IND PER CNN LOCN INCHI INCfI2 EEGT ENDT POIA PTYPE CAL If 4 *--_-. *--

I 4I1!1 6 .92 9 PCT 15 P2 AV4 .09 .38 TEC TEN. 618 NBAZC 33 Hf 2014119191 23 7 1.27 9 PUT 17 P2 AV4 .06 .90 TEC TEN .610 NBAZC 35 HI 2014112101 25 8 1.18 9 PCI 19 P2 AV2 .09 .80 TEC TEN .618 NBAZC 33 Hf I 2014112181 25 8 .26 2 PUT 17 P2 AV3 .09 .38 TEC TEN .510 NBAZC 33 HI I Z5 2 1.12 3 PUT 10 P2 AV4 .09 .30 TEC TEN .616 NSAZC 33 HI I 2014118l01 27 19 1.47 2 PCI 22 P2 M2 .23 .20 TEC TEN .610 NBAZC 33 N I 2014112,ar 28 11 1.21 9 PCI 15 P2 AV2 .08 .23 TEC TEN .612 NBAZC 35 Hf I 2014119181 28 11 3.27 2 PCI 31 P2 AV3 .08 TIC TEN .618 NBAZC 35 Hf 2014118191 28 11 1.83 0 PCI 21 P2 AV4 - .03 TIC TEN .610 UBAZC 36 Hf 2014113101 27 12 .85 3 PCI 15 P2 AV3 - .13 .30 lEt TEN .610 NBAZC 33 Hf I 2014118131 22 12 .54 9 PCI 11 P2 AOl .03 TEC TEN .610 NBAZC 33 Hf I 2014113101 26 12 1,44 0 PCI 22 P2 A12 -.18 lEt TEN .610 NBA2C 33 HI I 2014119131 26 12 .96 8 PCT 17 P2 A04 .08 .20 lEO TEN .618 NBAZC 33 Hf I 2014118131 33 12 1.23 3 POT 15 P2 A02 -.04 .00 lEt TEN .610 NSAZC 33 HI I 2913118101 32 12 .1.16 0 PCT 12 P2 A33 -.13 .90 TEC TEN .610 NSAZC 33 HI 2014118121 Ii 12 1.73 8 PCI 24 P2 AOl .07 TEC TEN .610 NBAZC 33 Hf 2014113181 31 12 3.59 3 PCI 35 P2 A02 -.32 TEC TEN .610 NSA2C 33 Hf I 2014119101 31 12 3.85 9 PCT 36 P2 AOl -.05 TEC TEN. 612 NSAZC 33 Hf I 2014118121 31 12 2.56 3 PCI 33 P2 A04 .03 lEO TEN .616 N8AZC 33 Hf 2014118131 32 12 .97 9 PCT 17 P2 AOl .98 .80 lEt TEN .610 NSAZC 33 Hf 2314113191 32 12 2.25 8 PCT 28 P2 A02 .23 .26 TEC TEN .610 NBAZC 33 Hf 2014112131 32 12 1.90 9 PCT 13 P2 AOl -.08 .20 lEt TEN .610 NBAZC 33 Hf 2014118101 32 12 1.26 3 PT 20 P2 A04 -.02 .20 TEC TEN .613 NSAZC .33 Hf I 2014113181 29 13 1.25 0 PUT 17 P2 AOl .05 TEC TEN .610 NSAZC 35 Hf 2214113191 32 13 1.02 2 PCI 15 P2 Aol - .23 TEC TEN .510 NSA!C 35 Hf 2014113191 32 13 .1.84 3 PCI 14 P2 A04 -.32 lEt TEN .610 N2AZC 35 Hf I f 014113181 31 13 1.87 9 PUT 15 P2 AOl - .08 .80 TEC TEN .618 NSAZC 35 Hf I 2014119! 01 31 13 1.28 9 PUT 15 P2 AVO - .03 .80 TEC TEN .618 NSAZC 35 Hf 2014112101 31 13 1.21 3 PUT 16 P2 AOl .10 .00 TEC TEN .512 NSAZC 35 Hf 2014113131 31 13 1,71 3 PCI 21 P2 A04 - .19 .00 lEt TEN .618 NSAZC 35 Hf 2014113191 33 13 1.86 9 PCT 29 P2 AOl .11 .30 TEC TEN .610 NBA2C 35 Hf 2014113131 33 13 1.39 0 PCI 15 P2 AOl -.23 .20 TEC TEN .810 NBAZC 35 Hf 2914119131 26 14 1.19 0 PUT 12 P2 A04 .02 .00 IEC TEN .618 HSAZC 33 Hf 2014118191 32 14 1.13 9 PCI 13 P2 AOl .18 .93 TEC TEN .4.10 NBAZC 33 Hf 2014118101 39 14 1.17 2 PCI 19 P2 AV$ - .11 .80 lEO TEN .612 NBAZC .33 Hf 2014110191 3 14 2.52 2 PUT 29 P2 AOl -.47 .80 lEt TEN .616 NSAZC 33 Hf 2014I19191 33 14 2.37 3 PCT 23 P2 A02 -.08 .00 lEt TEN .610 NSAZC 33 Hf 2314113101 33 14 1.52 9 PCI 22 P2 MI .09 .0 lEt TEN .810 NBAZC 33 Hf 2014118101 33 14 1.51 0 PCT 22 P2 AO$ .08 .39 TEU TEN .610 NBAZC 33 Hf 2014118131 34 14 1.85 8 PUT 23 P2 A02 .05 TEC TEN .618 NBA2C 33 Hf I 2014110131 34 14 5.33 8 PCI 41 P2 AOl .03 lEO TEN .610 NBA2C 33 Hf I 2014119121 34 14 1.28 8 PUT 29 P2 A04 -.06 .80 lEt TEN .618 NSAZC 33 Hf I 2014113101 35 14 1.22 8 PUT 29 P2 AOl - .07 .00 TEC TEN .6.18 NBAZC 33 Hf

.2014110101 35 14 1.61 3 PUT 25 P2 A02 .03 .00 TEC TEN .610 NSAZC 33 Hf 2013113101 35 14 1.24 2 PCI 20 P2 A03 -.22 .00 TEC TEN .518 NBAZC 33 Hf 2014113191 31 15 2.17 8 PUT 25 P2 A02 .00 lEO TEN .616 NSAZC 35 Hf 2014119131 31 15 1.83 3 PUT 11 P2 A04 -.05 lEt TEN .616 NSA2C 35 Hf 2314112131 35 2.97 2 PC: 33 P2 A02 -.12 .23 TEC TEN .612 NBA2C 35 Hf 2014110181 31 16 .02 0 PCI 15 P2 AOl .11 .38 TEC TEN .610 NBA2C 33 Hf 2014119101 31 16 1.61 0 PUT 23 P2 AOl - .14 .92 lEO TEN .610 NSA2C 33 Hf

_---+----+----+---.*----

I INCPDAIE POW CDL VOLTO DEC IND PER CNN LCCN INCHI INCN2 SEOT ENDT POIA PTPE CAL If

+ + + +----+ 4. + + + 4 Page 20 of 41

20 - S ANTI-VISRATIUM OAR WEAR INDICATIURU 6rUx 2 82R18 461 141001 10/10/2314 14620

++-*--------+----+----4----4-+-4*-

IN2PCATE ROW COL O1TS CEO IND PER CNN 10CR INCHI INCH2 EEGT ENOT PUIA PTYPE CAL L jj2 f:9 90 TIC TEN .610 N6AZC 33 h I 1$!I/l 32 15 0 PCI P2 A3 -

2014!10I01 34 16 1.09 0 PCT 12 P2 AVI -.16 .00 TIC TEN .610 NOAZC 33 H 2014/10/01 35 16 .07 0 POT 17 P2 AVI -.03 .90 TIC TEN .610 NSA2C 33 HF 2013!10I01 35 15 1.06 9 POT 26 P2 All - .11 .00 TIC TEN .610 NEAZO 33 HF I 2014/1001 36 16 2.11 0 POT 27 P2 MI -.14 .00 TIC TEN .610 N8AZC 33 HF I 2014/10/01 36 16 3.27 0 PT 33 P2 AV3 -.45 TIC TEN 610 NBAZC 33 HF I 0 POT 23 P2 AV4 -.92 .00 TIC TEN .610 NEAZO 33 HF I 2014(10/01 31 17 .97 0 POT 14 P2 MI -.03 TIC TEN .610 NOAZC 31 HI 1014119/01 31 17 .1.04 0 POT 15 P2 AV3 -.31 TIC TEN .610 NOAZO 31 HF 2014/10/01 34 17 1.47 0 POT 12 P2 AU3 - .15 .00 TIC TEN .510 NEAZC 35 HF 2014/1001 34 17 1.34 0 POT 17 P2 M4 .03 .00 TIC TEN .610 N8AZC 35 H I 2014/10101 36 17 1.73 0 POT 21 P2 AV .20 .00 TIC TEN .610 NSAZC 35 HF I 2013/10/01 36 17 1.00 0 POT 15 P2 M3 - .13 TIC TEN .610 NSAZO 35 HF 2014110/01 37 17 1.27 0 POT 17 P2 AV3 -.10 .00 TEC TEN .610 NBAZC 35 HF 2014/10101 25 18 .50 0 POT 12 P2 AV4 -.02 TIC TEN .610 NEAZC 29 HF I 2014/10/01 36 16 1.43 0 POT 22 P2 Ml -.03 .00 TIC TEN .610 NSAZC 13 HF I 2014/10101 35 18 1.26 0 POT 20 P2 Ml -.10 .00 TIC TEN .610 NOAZC 33 HF I 2014/10)01 34 19 1,30 0 POT 17 P2 M3 -.03 .00 TIC TEN .610 NSAZC 35 HF 2014110/01 37 19 1.56 0 PCT 19 P2 Ml - .11 .00 TIC TEN .610 NSAZC 35 HF I 2014/10/01 39 19 3.20 0 POT 31 P2 MI .00 TIC TEN .610 NSAZC 35 HF I 2014110/01 39 19 2.73 0 POT 29 P2 AV3 .09 TIC TEN .610 N6AZC 35 HF 2012/10/01 39 19 1.16 0 POT 16 P2 AV4 -.42 TIC TEN .610 N8AZC 35 HF 2014/10/01 35 23 1,05 0 POT 12 P2 M3 -.35 TIC TEN .610 NBAZC 33 HF I 2014/10/01 35 20 .65 0 POT 16 P2 Ml -.16 TIC TEN .610 NSAZC .33 HF I 2013/10101 36 29 1.64 0 POT 25 P2 Ml .2? .00 TIC TEN .610 NBAZC 33 HF I 2014/10/01 35 20 1.36 0 POT 21 P2 M3 -.37 TIC TEN .610 N6AZC 33 HF 1014/10(01 39 20 1.33 0 POT 21 P2 Ml .16 .00 TEC TEN .610 NSAZC 33 Ht 2014/10101 30 20 2.15 0 POT 27 P2 AV2 -.43 TIC TEN .610 NOAZC 33 HF 2014/10101 40 20 2.31 0 POT 28 P2 A13 -.15 .90 TEC TEN .610 NSAIC 33 HF 2014110/01 40 29 1.66 0 POT 23 P2 AV4 -.03 .00 TIC TEN .610 NSAZC 33 HF 2014/10/01 39 21 1.45 0 PCT 18 P2 AV2 .15 .00 TIC TEN .610 NSAZC 35 HF I 2014(10101 39 21 1.56 0 POT 20 P2 Ml -.18 .00 TIC TEN .610 NSAZC 35 HF I 2014110(01 35 23 1.92 0 POT 23 P2 Ml .25 TIC TEN .610 N8AZC 31 HF 2014/10/01 30 23 .79 0 POT 31 P2 AV4 -.22 TEC TEN .610 N5AZC 35 HF I 2014/10/01 30 24 1,80 0 POT 25 P2 AV2 .15 .00 TEC TEN .610 NSAZC 33 HF 1014/10/01 2? 25 .65 0 POT 16 P2 AV3 -.16 .00 TIC TEN .510 NSAZC 33 HF I 2014/10/01 .33 25 2.78 0 POT 31 P2 AV2 .19 .00 TIC TEN .510 NEAZO 33 HF I 2014/10/01 33 25 2.16 0 POT 2? P2 Ml -.08 .00 TIC TEN .610 NSAZC 33 HF I 2014/10/01 43 25 1.38 0 POT 21 P2 AV4 .08 .00 TIC TEN .610 NSAZC 33 HF F 2014(10/01 45 25 1.29 0 PCT 20 P2 AV4 -.15 .00 TIC TEN .610 NBAC 33 HF 2014/10/01 34 26 2.07 0 POT 23 P2 AV3 .00 .00 TIC TEN .610 N6AZC 35 HF F 2014/10/31 39 26 2.04 0 PCT 23 P2 AV2 .20 .00 TIC TEN .510 NEAZO 35 HF I 2014/10/01 39 26 1.21 3 POT 15 P2 Ml .00 .00 TIC TEN .610 NSAZC 35 HF 2014/10(01 40 26 1.51 0 POT 19 P2 Ml .11 .00 TIC TEN .610 NSAZC 35 HF 2013(10/01 34 26 3.43 0 POT 32 P2 AV2 .26 .00 TEC TEN .610 NEAZC 35 HF

+ e +----4----+

IMCPDATE ROW CCL VOLTI CEO INC PER CNN 10CR INCH1 INCN2 SEOT ENOT POIA PTYPE CAL L

+ + 4----+---+----* + 4 4 Page 21 of 41

20 - S AN1I-VI0RAT10 OAR WEAR IN0ICAT2C{2 2 SZRIS VSE 25141001 I0Il6?261* 153&20

+-+----+ -+--_-+----+ .-4----.+----+-1--4 U VOL 90112 DEG INC P N L0C INVNI INCH2 SEOT ET P015 PTY CAL LI

-*-+-4----+

I 20L4113131 44 26 1.65 3 PCI 15 P2 593 .00 1EV TE .510 NOAZC 35 H I 24110)61 45 28 3.16 6 PCT 31 P2 A92 .31 .30 1EV IEH .610 NSA2V 35 H 2014110131 35 28 4.22 3 PCT 37 P2 MS -.42 1EV TEN .610 NSA2C 35 H 2014!10l61 45 26 2.44 6 PCI 26 P2 AV4 .03 .00 1EV TEN .510 NOAZC 35 H 2014110)01 26 27 1.27 6 PCI 23 P2 M2 .16 .60 1EV TEN .610 NOAZV 33 H 11 PCT 21 P2 MS - .05 . TEC TEN .510 NA2C 33 H 2314110131 30 27 .07 0 PCI 17 P2 592 .00 1EV TEN .510 NSAZC 33 H 2314110131 30 27 1.75 0 PCI 24 P2 593 - .05 .36 1EV TEN .510 NOAZC 33 H 2014110)61 40 27 2.63 6 PCI 26 P2 593 -.06 .60 1EV lEN .510 NSAC 33 H 2014l10131 49 27 .65 6 PCI 17 P2 594 .06 .06 1EV TEN .510 NSAZC 33 H I I 2013110131 47 27 6.5* 6 PCI 56 P2 A92 - .25 .60 TEC TEN .510 MEAZC 35 H 201$116l3i 37 27 3.66 0 PCI 33 P2 593 .21 .65 1EV TEN .613 NOAZC 35 Ft 2314110f31 57 27 2.66 6 PCI 36 P2 594 -.06 .00 7EV lEN .510 N6AZC .35 I I I 201$!10131 32 28 2,54 0 PCI 27 P2 592 - .05 .60 1EV TEN .610 N!AZC 35 H

1 2314110101 32 26 1.76 6 PCI 21 P2 593 .32 .00 1EV lEN .610 NSAZV 35 H 2014110)31 32 26 1.26 0 PCI 16 P2 594 - .15 .00 1EV TEN .513 NOAZC 35 H 2012110131 27 29 1.11 0 PCI 20 P2 592 .46 .30 1EV TEN .513 NOAZC 33 H I 2014113161 27 29 1.35 0 PCI 21 P2 Ml - .14 .00 7EV TEN .510 NEAZC 33 H I 2014110)31 26 29 1.15 0 PCI 19 P2 592 .24 .60 1EV TEN. 610 NSA2C 33 K 2314110.131 26 29 1.38 0 PCI 21 P2 593 -.13 .60 1EV lEN .510 NSAZC 33 K I 2312110l31 35 29 1.32 6 PCI 2j P2 592 .06 .00 1EV lEN .510 NSAZV 33 HI 2014110)31 36 29 1.22 0 PCI 26 P2 MI -.05 .00 1EV TEN .610 NSAZV 13 H I 2014116131 39 29 .66 6 PCI 17 P2 Ml -.12 .60 1EV lEN .610 NOAZC .33 2314110l61 $1 29 1.2* 0 PCI 23 P2 593 - .35 .63 TEC TEN .610 NOAZV 33 H 2014110101 43 29 1.35 0 PCI 21 P2 591 -.13 .00 ISV lEN .510 NSAZC 33 h 2014110131 43 29 4.45 0 PCI 35 P2 A12 .38 .30 1EV TEN .510 NOA2C 33 14 I 2014113161 43 29 1.29 3 PCI 23 P2 MI -.16 .00 1EV TEN .610 NOAZV 33 14 I 20141r3)o1 55 29 1.35 0 PCT 21 P2 594 -.11 .00 1EV TEN .510 NSAZC 33 1%

2014110131 3$ 16 1.13 3 PCI 15 P2 591 - .05 .30 1EV TEN .510 NOAZC 35 14 2314110131 34 33 2.14 3 PCI 25 P2 593 -.43 1EV lEN .610 NSAZC 35 1%

I 2014113131 14 30 .75 0 PCI 12 P2 MS -.05 1EV TEN .510 NSAZC 35 14 I 2014116131 32 33 2.31 3 PCI 25 P2 Mi .09 .36 1EV TEN .510 NOAZC 35 2014110131 42 33 3.25 0 PCI 31 P2 592 .27 .60 1EV TEN .510 NSAZC 35 14 2314110131 42 30 5.55 6 PCI 43 P2 593 .18 .00 1EV TEN .510 NOA2V 35 14 I 2016110131 27 31 1.07 3 PCI 16 P2 593 .03 .00 1EV TEN .510 NSAZC II I 2014113131 27 31 1.53 3 PCI 25 P2 594 -.11 .00 7EV TEN .513 NSAZC 33 14 2014110131 45 31 1.60 0 PCI 17 P2 MS - .13 .30 1EV TEN .610 NOAZV 33 14 31 P2 :33 I 2014113!31 49 .65 3 PCI 1? 591 .11 .03 1EV TEN .613 NOA2C 14 2014l12131 49 Ii .55 0 PCI 15 P2 MI - .28 .03 7EV TEN .610 NOAZC 33 1%

2312110131 49 31 1,24 3 PCI 23 P2 594 -.18 .66 7EV TEN .510 NOAZC 33 HI I I 2314l10!31 26 32 1.40 3 PCI 19 P2 592 .26 1EV TEN .510 N5AZC 35 1%

2014113)31 25 32 1.03 3 PCI 14 P2 M3 -.13 1EV TEN .510 NSA2C 35 1%

2814)13131 31 32 .78 0 PCI 1.2 P2 51 .05 7EV TEN .010 NSAZC 35 HI 2614113131 31 32 .97 3 PCI 13 P2 592 .03 .00 1EV TEN .610 NOA2C 35 HI 2018113131 12 32 .75 3 PCI 11 P2 Ml -.03 1EV TEN .613 NSAZC 35 HI 2014)13131 32 32 1.79 3 PCI 21 P2 512 -.01 .30 7EV TEN .610 NSAZC 35 1%

2014110131 32 32 3.10 0 PCI 33 P2 593 .00 .03 1EV TEN .610 NOAZC 35 N I 2314110)31 32 32 1.SL 3 PCI 19 P2 594 .10 .30 1EV TEN .510 NSAZV 35 HI 2314110)01 35 3.2 .63 3 PCI 13 P2 592 .11 1EV TEN .613 NSA2C 35 HI

4___4 4---4 + +--- 4 I IN2POAIE ROW CCL 90112 050 INC PER CNN tOCN INCHI INCH2 SEOT ElIOT P025 PIYPE CAL LI

4 + 4----4---+--.--..+----+----+ + 4 4 Page 22 of 41

20 - B ANTI-flBRATICN BAR WEAR INDICATLC%C Byrr 2 B2R16 005 20121201 10/1012314 154&20

+-,-------- +-+---4----+----#----4----4-------+---------+-4-*-*-----+--,

INCPATE POW CCL OLT2 DEC INC PER CNN LOON INCKI INONC SECT ENCT POIA PT/PS CAL If

+ + +-,--4---+----+ 4 + 4

14110(31 45 32 1.47 0 POT 18 P2 AV2 - .05 .33 TEC TEN .510 N6AZO 35 Nj I 2014/19/31 35 32 2.66 3 POT 26 P2 AV3 25 .20 TIC TIN .610 NEAZO 35 Nj 2014119131 34 33 1.56 9 POT 25 P2 /Y2 .20 .30 lEO TEN .613 NBAZC 33 Nj 2314/10(31 34 33 1.23 0 POT 20 P2 AVI - .02 .30 TIC TEN .616 NBAZO 33 Hj 2014/13/01 39 33 1.01 0 POT 17 P2 AVZ .05 .39 TIC TEN .618 HBAZC 33 Nj 2014/10/31 39 33 1.30 3 POT 23 P2 AV3 -.22 .28 lEO TEN .518 HBAZC 33 Nj 2014112(01 39 33 1.35 0 POT 21 P2 AV4 .06 .90 TIC TEN .610 NBAZC 33 Nj Z014113131 40 33 1.97 0 POT 18 P2 A2 -.43 .30 TIC TEN .313 NBAZO 33 Nj 2014110(91 49 33 1.12 0 POT 19 P2 MI .00 .30 TIC TEN .610 NBAZC 33 Nj I 2314113/91 49 33 .91 0 POT 18 P2 AV1 .21 .00 TEe TEN .510 NBAZC 33 Nj 2014/10101 49 33 1.36 9 POT 21 P2 A94 -.35 .90 lEO TEN .513 NBAZC 33 Nj 2314110/01 31 3 1.93 2 POT 15 P2 M3 -.05 lEO TEN .513 NBAZO 35 Nj I 2313/10/31 49 34 .75 0 POT IL Pa Ml .02 TEe TEN .513 NBAZC 35 Nj 2014/12101 43 34 3.96 9 POT 30 P2 AdC .03 .00 TIC TEN .510 NSAZC 35 Nj I 2313/19/01 42 34 1.32 2 POT 17 P2 A3Z - .13 .32 lEO TIN .515 NBAZO 35 Nj 2314113/91 40 35 1.34 0 POT 21 P2 AVI -.15 .90 lEO TEN .610 NBAZC 33 Nj 2013112(01 32 32 1.20 2 POT 17 P2 442 .09 lEO TEN .610 NBAZO 35 Nj 2313/10/91 32 32 1.59 0 POT 22 P2 MI - .13 .90 lEO TEN .610 NBAZO 35 Nj 2314113101 34 36 1.69 0 POT 20 P2 442 .02 .30 TIC TEN .610 NBAZC 35 Nj 2313(13/31 34 36 1.23 0 POT 17 P2 A/I .09 .20 lEO TEN .510 UBAZC 35 Nj 2314/10(01 42 36 1.75 9 POT CL PC A/C -.18 .03 TIC TEN .616 HBAZC 35 Hj 2313112/01 45 36 2.57 9 POT 29 P2 A/I - .27 .00 TIC TEN .610 NBAZO 35 Nj 2314(10/01 45 32 3.27 0 POT 31 P2 AV$ - .08 .30 TEC TEN .818 NSAZC 35 Nj 2314/12131 22 37 1.24 9 POT 18 P2 A/I -.11 TIC TEN .610 NBAZC 43 N 2314113/31 42 37 .0 0 POT 15 P2 A/I .20 .90 TEe TEN .610 NSAZC 33 Nj 2314/10/31 42 37 2.53 2 POT 33 PC A/C - .32 .30 TIC TEN .610 NSAZC 33 Nj 2314/12(31 48 37 2,44 3 POT 29 P2 A/I - .11 .00 TIC TEN .610 NSAZC 33 Nj 2014/10191 49 37 .97 0 POT 17 P2 6/1 .19 .20 TIC TEN .610 NBAZO 33 Nj 2314/10/01 49 37 1.35 2 POT CL PC 6/3 -.03 .30 TIC TEN .613 NSAZC 33 Nj 2014/12101 39 32 1.41 0 POT 18 P2 AVZ - .36 710 TEN .616 NEAZC 35 Nj 2314/12191 39 32 1.31 9 POT 18 P2 A/I -.13 .92 TIC TEN .613 NBAZC 35 Nj 2313/13(01 10 39 .79 9 POT 11 P2 6/4 .15 TEO TEN .610 NBAZO 43 Nj 2314/1931 33 39 1.15 0 POT 17 P2 A/I -.35 TEC TEN .610 UBAZO 43 Nj 2314(10/21 32 39 .73 0 POT 12 P2 6/4 -.03 lEO TEN .610 NBAZC 43 Nj 2313/10(01 33 39 1.23 2 POT 18 P2 6/2 .03 .30 TIC TEN .610 NBAZO 37 Nj 2314113/31 39 39 1.51 0 POT 22 P2 4/3 .31 TIC TEN .610 UBAZC 37 Nj 2314/10101 32 39 .77 0 POT 14 P2 6/3 .05 TIC TEN .616 NSAZC 37 Nj 2314119101 32 43 1.27 0 POT 21 P2 AV2 .03 .35 TIC TEN .610 N6AZC 41 Nj 2314(10/01 32 40 1.55 0 POT 23 P2 6/3 - .15 .30 TIC TEN .613 N6AZC 41 Nj 2314/13/01 32 40 1.34 0 POT CC P2 6/4 -.13 .90 TIC TEN .618 NSAZC 41 Nj 2314/13/21 32 41 1.13 3 POT 19 P2 6/2 -.03 TIC TEN .610 NBAZC 37 Nj 2014/13/01 49 41 .90 9 POT 17 P2 A/I - .22 .00 TIC TEN .510 HBAZC 37 Nj 2314/13131 32 42 .80 0 POT 16 P2 A/I - .18 .33 TIC TEN .610 N!AZC 31 Nj 2314113121 31 43 1.77 9 POT 24 P2 A/I -.03 TIC TEN .610 NSAZC 37 Nj 2013(19/91 41 43 2.44 0 POT 39 P2 A/2 .21 TIC TEN .610 NSAZC 37 Hj 2313/13/91 41 63 4.03 9 POT 37 P2 6/3 -.32 lEO TEN .610 NBAZO 37 N

+ 4 + + 4 4 1N2PDATE ROW CDL /01T2 DEC INC PIR CNN COON INCKI INCN2 SECT INOT POIA PTYPE CAL Lj

4 1 4 a----. * + + * +

Page 23 of 41

28 - ANT1-1t0RATICl8 SAR UER IHDICATIOli Eyrn 2 52R16 CSE 141301 10/10)2314 l5652O

÷ - .----+---4 - 4-- ---4----4 - 4---- + ------4--*

I P3W CCC )CLTC 0E6 IND PER CNN 13311 !NC1II IN2112 OE5T ElIOT POIA PTYP CAL LI

+--+-+ +++-* + #---4----+ 4 4 I 2014/18191 35 32 1.47 9 PCI 13 P2 AV2 -.05 .90 TEC TEN .610 NSAZC 35 N I 2014118191 .35 32 2.36 0 PCI 26 P2 A33 .25 .09 TEC TEN .610 NSAZC 35 NI I 2014(10/31 34 33 1.56 3 PCI 25 P2 AWl 20 .30 TEC TEN .810 NSAZC 33 HI 2014113131 34 33 1.23 3 PCI 29 P2 AWl - .32 .00 TEC TEN .610 NSAZC 13 HI I 1 2014113/91 39 33 1.01 3 PT 17 P2 AWl .35 .30 TEC TEN .810 NBAIC 33 HI I 2014118)91 39 33 1.39 3 PCI 23 P2 AWS -.22 .30 TEC TEN .610 N6AZC 33 HI 2014/13/91 39 33 1.35 0 PCI 21 PC AV4 .36 .50 TEC TEN .615 N3&ZC 13 HI 1 I 20f4119/91 40 33 1.97 0 PCI 15 P2 AWl -.23 .00 TEC TEN .613 NSAZC 33 RI I 201410191 40 33 1,12 0 PCI 49 P2 AWl .33 .00 TEC TEN .610 NSAIC 33 RI I ZS1$(18131 39 33 .91 0 PCI 16 P2 AWl .21 .00 TEC TEN .610 NSAZC 33 Hi I 2014(18/91 39 33 1.38 3 PCI 11 P2 AV4 - .05 .00 TEC TEN .10 NAIC 33 Hi 2314113/31 Ii 34 1.83 0 PCI 15 P2 AWl -.05 TEe TEN .613 N6AZC 35 HI 2014113/31 30 34 .70 0 PCI 11 P2 AWL .08 TEC TEN .610 NSAZC 35 HI I 2014/13131 49 34 1.36 3 PCI 38 P2 AWl .30 .30 TEC TEN .610 N6AZC 35 HI 2314/13/91 32 34 1.32 3 PCI 17 P2 AWl -.13 .33 TEC TEN .610 NSAZC 35 Ri 2614/13(31 48 35 1.34 8 PCI 21 P2 AWl -.13 30* TEC TEN .3.13 N3AZC 33 RI 2014(18/91 32 36 1.20 8 PCI 17 P2 AWl .33 TEC TEN .610 NSAZC 35 RI 2014118/01 32 36 1.59 3 PCI 22 P2 AV3 - .19 .30 TEC TEN .13 N6A2C 35 HI I 2014113191 34 36 1.69 0 PCI 23 P2 AWl .33 .30 TEC TEN .610 NAZC 35 HI I 2014/18i91 34 36 1.29 3 PCI 17 P2 AWl .03 .30 TEC TEN .610 NSAZC 35 HI I 2014)13131 32 36 1.75 0 PCI 21 P2 AWl -.18 .90 TEC TEN .510 NSAZC 35 HI 2014118131 45 36 2.87 0 PCI 29 P2 AW3 - .27 .90 TEC TEN .610 NBAZC 35 Nj 2014118191 45 36 3.27 0 PCI 31 P2 AW4 - .85 .05 TEC TEll. 613 NSAZC 35 RI 2314118191 26 37 1.24 3 PCI 13 P2 AWl - .11 TYC TEll .613 NSAZC 43 HI 2014/10131 .32 37 .93 0 PCT 18 P2 AWl .23 .95 TEC TEN .610 NSAZC 33 HI I 2314113/31 41 37 2.63 9 PCI 33 P2 AWl -.32 30: TEC TEll .610 NSAZC 33 HI 1 2514118)81 32 37 2.14 3 PCI 29 P2 AW3 -.11 .30 TEC TEN .515 NSAZC 33 HI 39 PCI 17 P2 Mu .19 . TEC TEll .610 NAZC 13 RI I 2014118131 49 37 1.35 8 PCI 21 P2 AW3 - .93 .33 TEC TEN .610 NSAZC 33 HI 2012118181 39 35 1.41 0 PCI 15 P2 AWl -.35 TEC TEll .310 NSAZC 35 Ri 2014118/81 39 35 1.41 0 PCI 15 P2 .AW3 - .10 .00 TEC TEll .613 MSAZC 35 HI I 2014118181 10 39 .79 3 PCI 13 P2 AW4 .16 TEC TEN .6.19 NSAXC 43 HI I 2014113131 32 39 1.15 0 PCI 17 P2 AW3 - .36 TEC TEll .610 NSAZC 43 RI I 1014/18)01 31 39 .73 0 PCI 12 P2 AW4 - .03 TEC TEN .510 NSA2C 43 RI 2014)18131 34 39 1.33 0 PCT 13 P2 AWl .00 .50 TEC TEN .819 NSA2C 37 NI 3:9 151 PCI 22 P2 AW2 37 I 2014118)91 39 0 .31 TEC TEN .510 NSAZC Ri I 2314113191 41 39 .77 0 PCI 14 P2 AWl .05 TEC TEll .610 NSAZC 37 HI I 2014118131 32 60 1.27 0 PCI CL PC AWl .03 .00 TEC lEN .510 NSAIC 41 RI I 2014118131 31 40 1.55 0 PCI 23 P2 AWl - .16 .0 TEC lEN .610 NSAZC 41 HI I 2314113181 32 49 1.34 0 PCI 22 P2 AW$ - .13 .00 TEC TEll .610 NSAZC 31 RI 2014118181 30 41 1.16 0 PCI 19 P2 AWl - .03 IEC TEN .616 NSAZC 3? HI I 2014)18131 33 41 .90 9 PCI 17 P2 AWl -.22 .00 TEC lEN .613 NSAZC 17 HI 2014119/91 32 42 80: 0 PCI 15 P2 AWl - .18 .33 TEC TEN .619 NSAZC 41 HI I 2014)13(31 41 43 1.77 3 PCI 2* P2 AWl -.03 TEC TEN .613 N6AZC 37 HI 2014(18/81 41 63 2.44 8 PCI 29 P2 AWl .21 TEC TEN .610 NSAZC 37 RI I 2014(13191 31 43 4.84 3 PCI 37 P2 AWl - .32 TEC TEN .610 NBAZC 37 HI

*----,----+ ,-------+----+----÷----, 4 ÷----*----4 +

I INCPDAIE P3W CCL !/OLIC 389 INC PER CNN LOCK INCh INCN2 5E91 ElIOT POIA PIYPE CAL LI

+ ,----* #----*----+----,----÷----, ÷ ÷ + +

Page 24 of 41

B ANTI -IBRATICN BAR WEAR INCICATIONO 2 62915 CEE 20141001 10/ 31$ C546Z0

+-__------__ ,----*----+- 4 ---_,--- --------- * --------- .----,----* - 4 ------,------ 4--,

tW.CPCATE ROW CCL IOLTO DEC INC PER CNN LOCN INCHI INCN2 SECT ENOT POIA PTYPE CAL LI

+ +----+ +----+----+----+----+----4 + + 4 I 2014110131 $2 44 1.61 3 PCI 23 P2 A92 .15 lEO TEN .610 NOAZO 36 HI 2014(10131. 42 44 4.85 6 PCI 39 P2 AV3 .00 lEO TEN .510 NBAZC 19 Hf I 2014113131 42 44 2.63 9 PCI 25 P2 A4 .24 lEO TEN .610 NBAIC 39 Hi 2014110131 $0 45 .0 8 POT 12 P2 A92 .08 lEO TEN .610 N6AZC $7 HI 2014110131 44 45 .69 9 POT 17 P2 AV2 .00 .60 lEO TEN .610 NBAZC 45 NI I 2014(IOtOl 44 45 1,51 8 PCI 23 P2 .AV3 - .13 lEO TEN .610 NBAZC 45 Hf 2014110/31 28 45 1.25 9 PCT 21 P2 M2 .03 lEO TEN .519 NEAZO 41 HI 2014(fO(31 40 54 1.25 3 PCI 21 P2 AV2 - .07 lEO TEN .610 NBAZC 45 H I 2014(13161 40 54 1.66 3 PCI 19 P2 .A1/3 .00 TEC TEN .615 NBAZC 45 Hi 2014(10/31 47 56 1.23 3 PCI 17 P2 AWl -.13 TEC TEN .519 NBAZC 47 HI I 2014(13/01 47 55 2.59 3 POT 26 P2 AW2 .03 .06 TEC TEN .516 UBA2C 47 Hi 2614110131 43 59 1.35 3 PCT 3 P2 AWl .03 lEO lEN .615 NBAZC 45 N 2014116(61 46 59 .75 0 PCI 16 P2 A94 .08 lEO TEN .615 UBAZO 45 Hi i 2014116/81 42 68 .60 9 PCI 17 P2 AWl -.13 lEO TEN .610 NSAZC 49 Hi 2014/10131 42 68 1.74 3 PCI 25 P2 AV2 -.08 lEO TEN .510 N6AZC 49 Hf 201$tIO!31 42 68 1.52 0 POT 23 P2 AW3 .65 TEO TEN .610 NSAZC $9 H 2014113(01 42 68 .77 9 POT 16 P2 AV4 .20 lEO TEN .610 N8AZC 49 H 2014(19/31 33 69 .67 3 PCI 11 P2 AW3 - .32 lEO lEN .610 NBAZC 51 Hi 2014113101 38 71 1.06 3 POT 14 P2 AWl -.55 lEO TEN .616 N!AZC 51 N 2014(13/31 36 71 1.43 3 POT 18 P2 AV2 .45 TEC TEN .616 NSAZC 51 Hf 2014119/01 38 71 2.68 3 PCI 35 P2 AWl -.33 lEO TEN .510 N6AZC 51 N 2014(16/01 38 71 1.03 3 PT 14 P2 AW4 - .35 TEC lEN .610 NBAZC 51 Hf 2014116/31 33 72 1.52 6 PCI 23 P2 AWl .03 .30 lEO TEN .610 NBAZC 49 H 2014110/31 33 72 1.17 3 POT 20 P2 AV4 .00 .03 lEO TEN .510 NBAZC 49 H 2014)13131 46 72 .71 3 POt 15 P2 AW3 -.26 lEO TEN .610 NBAZO 49 HI I 2014110131 39 78 .80 9 POT 18 P2 AV3 - .32 lEO TEN .510 NBAZC 53 Nj 2014(19101 44 76 2.27 3 PCI 27 P2 A92 - .18 .00 TEO TEN .610 NBAZC 59 H 2014110(01 44 78 1.61 3 PCI 22 P2 AWl -.13 .80 lEO TEN .610 NBAZO 59 Hf 2014110101 44 76 1.09 3 PCI 17 P2 AV4 - .55 .36 lEO TEN .610 NBAZC 59 H I 2014(1310I. 26 77 ..9 9 PCI 17 P2 AW2 .43 .80 lEO TEN .610 NBAZC 57 Hf 2014(10(61 39 77 .89 3 PCI 16 P2 AW3 .53 TEO TEN .510 N8AZO 57 H I 2314110101 35 78 2,00 6 PCI 25 P2 AW3 .00 .60 lEO TEN .510 NBAZC 59 H 2014113191 16 75 1.22 8 PCI 15 P2 AW4 - .18 .00 lEO TEN .610 N8AZC 59 H 2014110(01 28 79 .75 0 PCI 15 P2 AW2 .13 .36 lEO TEN .610 NBAZO 57 H 2014113(01 28 79 1.16 0 POT 15 P2 MI -.38 lEO TEN .610 NBAZO 57 N I 2014/18/61 41 73 1.16 9 POT 19 P2 443 -.39 lEO TEN .610 NBAZC 57 H I 2014113/31 41 79 .79 3 POT 14 P2 444 - .33 lEO lEN .610 NBAZC 57 Hf I 2014(18(31 36 83 1.08 3 PCI 17 P2 AWl - .03 .00 lEO TEN .610 N3AIC 59 Hf I 2014110/91 30 53 .71 0 PCI 12 P2 444 - .49 lEO TEN .610 NBAZC 64 H 2014110131 37 53 1.04 0 PCI 16 P2 442 .03 lEO TEN .610 NBAZC 61 H 2014(13(31. 41 83 .65 9 PCI 14 P2 AW2 .24 lEO TEN .610 N8AZC 61 Nt 201410/31 45 83 1.65 6 PCI 26 P2 442 -.02 .00 lEO TEN .610 N3A20 57 H 2014116/61 45 83 1.67 9 PCI 24 P2 AWl .00 .03 lEO TEN .610 N6AZC 57 Hf 2014(10/91 45 53 1.45 0 PCI 22 P2 444 .23 .00 lEO TEN .510 NBAZC 57 Hf 2014110(61 42 54 1.32 0 PCI 18 P2 AWZ .80 lEO TEN .610 NBAZO 53 Hf I 201411.0/81 42 84 1.42 3 PCI 19 P2 AWl .24 lEO TEN .619 NBAZC 63 Ni I 2014110(01 31 65 1.01 9 PCI 16 P2 442 -.03 lEO TEN .610 UBAZO 61 Hf

4-t-*-4--#

INOPOAIE POW CCL WOLTO DEC INC PER CNN 1.0CM INCNI INCN2 SECT ENDI POIA PV(PE CAL Li

+ *--4--* t-*_--*--4--+ 4 4 * +

Page 25 of 41

29 - S ANTI-UIERATSCN SAR WEAR INDICATIONS 6rUi a OZR1S CEE 2014.1001 10;1012014 ;sa.sao

+ +.---+ + +-_--+

I SNOPOATE ROW CDL IOLTO DEG IND PER CNN LOON INDFtI IUCH2 BEGT ENOT P016 PTYPE CAL If 4 + 4----4----+----+----+----* + + +

I 241l1 44 85 1.57 0 POT 23 P2 Ma .53 TED TEN .610 ff5620 57 Hf I 24110101 43 85 3.25 0 POT 33 P2 MS - .03 TED TEN .610 ff8620 57 h[

I 2014110101 44 85 2.Z9 S PCT 28 P2 M$ - .52 TED TEN .610 ff620 57 Hf 2014110101 22 66 1.46 0 POT 20 P2 %2 .00 TED TEN :5j5 f4562C 63 Hf I 201411001 43 86 95 S POT 15 P2 MI - .13 .00 TED TEN .610 NOAZC 59 Hf f 2014118101 45 86 2.95 5 POT 31 P2 6V2 .00 .00 TED TEN .510 N 620 59 Hf I 2014110131 45 85 1.57 0 POT 23 P2 MS - .03 .00 TED TEN .610 NSAZC 9 Hf I 2014110101 28 87 .59 5 POT 15 P2 M2 - .25 TED TEN .510 NOAZC 51 Hf 2014110101 28 87 .89 0 POT 15 P2 MS - .31 TED TEN .610 NSAZO 61 Ff OI$110131 21 67 1.71 0 POT 23 P2 611 .03 TED TEN .810 N8AZC 61 f I 2014110131 41 87 2.83 0 POT 30 P2 M2 .00 TED TEN .610 ff8620 61 Hf 1 2014110/01 41 57 1.58 0 POT 21 P2 MS .00 TED TEN .610 ff8620 51 Hf I 2014110/01 41 87 .56 5 POT 14 P2 M4 .00 TED TEN .610 ff0620 61 Hf I 2014110l01 35 56 1.55 0 POT 21 P2 MS -.03 TED TEN .610 NEAZC 63 HI f 2014t10/31 39 88 1.41 0 POT 19 P2 M2 .00 TED TEN .610 NSAZC 83 H 2014/15101 35 89 .91 0 POT 15 P2 6V2 - .22 TED TEN .510 ff0620 61 Hf 2014/15101 42 89 3.45 0 POT 34 P2 MI .00 TED TEN .510 NOAZC 61 Hf I 2014/10/SI 42 80 3.50 0 POT 34 P2 M2 .00 TED TEN .610 ff5620 61 Hf 2014/L5101 42 89 1.71 0 POT 23 P2 M3 .00 TED TEN .610 ff0620 61 Hf I 2014/10131 45 89 .70 0 POT 13 P2 MI - .03 TED TEN .610 ff8620 57 I 2014110101 45 89 3.24 0 POT 33 P2 6V2 .25 .00 TED TEN .610 ff5620 57 Hf I 2014110101 45 89 1.51 0 POT 23 P2 MS - .25 TED TEN. 610 ff5620 57 Hf I 2014110101 36 90 1.06 0 POT 16 P2 61/2 .00 TED TEN .610 ff8620 63 HI f 2014/10/31 35 90 109: 5 POT 16 P2 61/3 - .23 TED TEN .610 NS6ZD 63 Hf I 2014/10/01 37 90 .94 0 POT 14 P2 61/2 .09 TED TEN .610 NOAZC 83 Hf I 2014110/01 44 90 .96 5 POT 16 P2 M2 .13 .00 TED TEN .610 ff8620 59 Hf f 2014110101 44 90 4.01 0 POT 36 P2 61/3 -.18 .00 TED TEN .610 N86ZD 59 H 1 2014110101 44 90 1.31 0 POT 19 P2 61/4 -.05 .00 TED TEN .610 ffS%Z0 59 HI 2014110101 25 91 .94 0 PCT 15 P2 61/3 .00 TED TEN .510 NOAZC 61 Hf f 2014110101 45 91 1.56 5 POT 21 P2 M2 .00 TED TEN .610 ffS6ZC 61 Hf 2014110101 42 91 .69 0 POT 12 P2 A12 .09 TED TEN .610 N862O 61 Hf 2014110101 42 91 .76 5 POT 13 P2 61/3 .00 TED TEN .610 ff0620 61 HI I 2014/10131 42 91 .83 0 POT 34 P2 61/6 .00 TED TEN .610 ff8620 61 HI I 2014110/31 43 91 1.?9 S POT 24 P2 61/3 .13 TED TEN .610 ff5620 5? Hf 2014110101 23 91 1.09 0 PDT 15 P2 M4 .03 .00 TED TEN .510 ff8620 57 Hf I 2014110101 35 92 1.09 5 POT 16 P2 61/4 - .15 TED TEN .610 ff8620 63 Hf I 2014110101 37 92 3.52 0 PDT 35 P2 61/2 .00 TED TEN .610 ff8620 63 Hf 2014/10101 38 92 .97 0 POT 15 P2 61/2 .00 TED TEN .610 N86ZC 53 Hf I 2014110101 38 92 1.04 0 POT 16 P2 61/3 .00 TED TEN .610 ff8620 63 hI I 2014110101 39 92 1.80 5 PDT 23 P2 MI .00 TED TEN .610 ff8620 63 l 2014/10101 40 92 2.59 0 POT 30 P2 61/3 .00 TED TEN .510 N862D 63 Hf I 201$/15101 40 92 .99 5 POT 15 P2 M4 .00 TED TEN .610 NS6ZC 63 Hf I 2014110101 43 92 1,91 0 POT 22 P2 M3 .15 .00 TED TEN .610 ff8620 59 Hf 2014110101 37 93 .65 0 POT 33 P2 MZ .00 TED TEN .610 ff8620 61 Hf I 201$f10131 37 93 2.70 0 POT 29 P2 MS .90 TED TEN .610 ff86Z0 61 Hf I 2014/10101 35 93 .63 0 POT 12 P2 61/1 -.05 .00 TED TEN .810 ff0620 61 Hf 2014110101 38 93 .82 5 POT 15 P2 61/2 .03 .00 TED TEN .610 ff0620 61 HI

+ 4----, 4 +----+----+----+ + 4 4 I IND?DATE ROW CDL /IOLTD DEG INU PER CNN LOON INCHI INOH2 6EDT ENOT P016 PTYPE CAL Lf

---4----. +----4----+----+----+----+ + +----*----+ - Page 26 of 41

S ANTI-VISRATION SAR WEAR INDICATIO%2 Byroz 2 SIPIS CEE 20141301 i0/LO?2014 lS4S20 IW2PDATE POW CCL OLT2 DEG INC PER CNN LOCN INCNL INCN2 SECT ENDT POIA PTPE CAL L

+ +*+ * +++4 +

14110/31 36 93 1.42 3 PCI 20 P2 AV3 -.05 TEC TEN .810 NSAZC 61 H 2014l10101 38 93 1.18 PCT 15 P2 MI - .31 TEC TEN .610 NEAZC 61 HI 2014/10/31 39 93 .93 3 PeT 15 P2 MI .03 TEe TEN .510 NSAZC 51 HI I 4/1/1 39 93 1.57 3 PCT 22 P2 MI .09 TEC TEN .610 NSAZC 61 NI 39 93 .98 9 PCI 15 P2 AV4 .00 TEC TEN .613 NSAZC 81 H 2014(16/01 41 93 .69 9 PCI 15 P2 Ml .00 TEe TEN .610 NSAZC 51 HI 1 2014/10/01 41 93 1.57 3 PCT 21 P2 MI .03 TEC TEN .610 N6AZC 61 HI I 2914(10/01 41 93 2.54 3 PCT 26 P2 MI .00 TEC TEN .610 N8AZC 01 HI 2314(19/31 41 93 1.60 0 PCT 23 P2 MI .02 TEC TEN .510 NSAZC 61 HI 2014/13/01 43 93 1.37 9 POT 18 P2 MI - .38 TEC TEN .510 NBA2C 57 HI 1 I 2014/10/01 35 9 1.55 9 POT 22 P2 M2 .00 TEC TEN .610 NSA!C 63 HI I 2014(19/01 35 9 .82 9 POT 13 P2 M:I .33 TEC TEN .610 NSAZC 63 HI I 2014113/01 36 9, .89 9 POT 13 P2 M4 .00 TEC TEN .510 NSAZC 53 HI 2014/19101 17 94 1.01 3 POT .15 P2 MI .16 TEC TEN .510 NSAZC 63 HI I 2014/19101 37 94 .91 9 POT 11 P2 MI .13 TEC TEN .510 NBAZC 53 HI 1 2014/10/31 39 94 1,40 9 Per 20 P2 MI .00 lEO TEN .510 NOAZO 63 HI 2614/10/31 39 94 3.41 3 POT 33 P2 MI .33 TEC TEN .610 NEAZO 63 NI I 2014/19101 19 94 1.39 9 POT 19 P2 M4 .00 lEO TEN .610 NOAZC 63 HF 2014116/91 49 94 3.24 0 POT 32 P2 MI - .05 lEO TEN .510 NSAIC 63 Hi 2614/10/01 33 95 .81 3 POT 16 P2 MI .00 lEO TEN .610 HOA2C 61 HI I 2314/10/01 34 95 1.20 0 POT 23 P2 MI - .08 .00 TEC TEN .510 NSAZC 51 H$

2014119/01 36 95 1.55 0 POT II P2 Mi .09 lEO TEN 610 NSAZC 81 HI j 2314/10/01 38 95 1.52 o POT 21 P2 MI .00 TEC TEN .810 NSAZC 51 HI 2014/L0/31 38 95 1.92 POT 24 P2 MI .00 TEC TEN .610 NSAZC SI HI 2014/10101 38 95 1.57 9 POT 21 P2 AV4 .00 lEO TEN .810 NSAZC 81 HI 2014/10/01 3? 95 1.69 3 per 2 P2 Ml .00 lEO TEN 510 NSAZC 61 HI I 2314/16/31 39 95 1.54 POT 21 P2 MI .00 TEC TEN .619 NSAIC 61 HI I 2014/10(01 39 95 1.55 3 POT 22 P2 AV4 .00 lEG TEN .610 NSAZC 61 HI 2014/10/91 49 95 .54 3 POT 15 P2 A/lI .60 .20 lEG TEN .610 NSAZC 81 HI 1 2014(19(91 43 95 1,15 9 er 15 P2 A/lI - .31 lEG TEN .610 NSAZO 61 HI 2014/19191 41 95 1.59 3 POT 22 P2 A/lI .60 lEO TEN .510 NEAZO 61 HI 1 2014/10/01 41 96 3.80 o POT 35 P2 MI .00 TEC TEN .510 NEAZO 61 HI 2014(10/01 41 95 2,54 0 per as P2 MI .00 lEG TEN .610 NSAZC 61 H 2313/13/31 35 95 1.92 3 PCI 23 P2 A/lI .03 TEC TEN .810 NSAZC 63 HI

1 2014/10131 38 96 3.00 9 cr 31 P2 MI .68 TEC TEN .510 NOAZO 53 HI 2014/19191 18 96 2.22 3 er 26 P2 A/lI .03 lEO TEN .610 NSA2O 53 Nj I 2014/19/01 36 95 1.22 3 per 17 P2 MI .00 TEC TEN .610 NSAZC 63 HI 2314/10/31 36 90 2.91 G POT 30 P2 M4 .00 lEG TEN .513 NSAZC 63 Ht 2014/19/91 29 97 1.02 3 per ig P2 M4 .00 TEC TEN .510 NOAZC 55 HI 2013/10/01 33 97 2.60 er 31 P2 MI .00 lEO TEN .510 NSAZC 65 HI I 2614/10/31 35 97 .62 3 cr 14 P2 A/lI .30 lEO TEN .513 NSAZC 65 HI I 2014/10/01 35 97 1.41 3 Per 15 P2 MI .33 lEG TEN .810 NSAZO 65 HF I 2013/10/01 35 97 .79 G er 18 P2 M3 .00 lEO TEN .513 NSAZG 65 HI I 2014/19/01 29 96 1.16 per j P2 M4 .00 lEG TEN .610 NOAZO 67 HI 2014/19/91 29 95 1.25 8 POT 17 P2 A/lI -.11 .00 lEG TEN .510 NEAZC 67 HI 20i4/10/01 29 98 1.06 3 PCT 15 P2 A/lI -.15 .30 TEC TEN .610 NOAZO 07 HF 201416101 32 96 1.90 3 POT 23 P2 A/lI - .13 .30 TEe TEN .813 NSAZC 67 HI I 2013/19/01 32 98 1.93 G PcI is PC M4 .03 .00 lEO TEN .618 NOAZO 67 HI I 2014/10(31 33 93 1.33 3 per 35 P2 MI -.38 .86 lEG TEN .610 NSAZC 67 HI 2013/10/01 33 95 2.90 9 per 24 P2 MI .03 .30 lEG TEN .510 NEAZO 67 HI

+ ,-------* 4----,---4----+----+--+ 4 ----,----.

I INI?CATE POW CCL VOLTI DEC INC PER CNN LOCH !NCH1 INCHI SECT ENDT POIA PT/PS CAL Lj

+ * + 4-Page 27 of 41

25 - 5 ANT1-VIERATDON EAR WEAR INDICATIONS Syran 2 52R18 LEE 20141001 10/10/2014 l546;20 INSPOATE paw CDL VOLTS DES IND PER CNN LOCH 1NCHI INCH2 SEOT EKOT P014 PTYPI CAL LI

.4 .4 4 t--+----+ + 4--, .4 2014110101 33 98 .94 0 PCT 15 P2 A -.22 .00 TEL TEN .510 NEAIC 67 Nj 2914110101 35 95 1.33 0 PCT 24 P2 Mi .25 TEL TEN .610 NEA2L 67 HI 2014110/31 35 98 .33 0 PCI 34 P2 4V2 .00 TEC TEN .810 NSAZL 57 Nj 2014110101 35 93 1.21 0 PLT 15 P2 MI .17 .00 TEL TEN .510 N5AZL 67 Nj I 2014/11101 35 96 2.12 0 POT 25 P2 494 .00 .00 TEL TEN .610 NEA2L 67 Nj 2014110)01 25 99 1.02 0 POT 19 P2 492 .90 TEC TEN .510 N542L 55 Nj I 2014110/01 25 99 .91 0 POT 16 P2 494 - .10 TEC TEN .610 NSA2C 65 Nj 2014110101 20 93 .94 0 POT 16 P2 M4 .00 TEL TEN .610 N542L 65 Nj I 2014110/01 30 99 1.10 0 POT 20 P2 493 .00 TEL TEN .610 NSA2C 55 Nj 2014110101 32 99 .95 0 POT 18 P2 493 .90 TEL TEN .510 N5A2L 55 Nj 2014i10/01 33 99 1.15 0 PeT 20 P2 Mi .00 TEL TEN .610 NEA2L 65 Nj 2014/10101 33 99 1.54 0 POT 26 P2 M2 .00 TEL TEN .610 N5AZL 55 Nj 2914/10101 33 99 1,71 0 PLT 25 P2 MI .90 TEL TEN .510 N542L 55 NI 2014/10131 33 99 .95 0 PCI 16 P2 M4 .90 TEL TEN .610 N5A2L 55 Nj 2014/10101 34 99 .33 0 PLT 18 P2 MI .00 TEL TEN .510 N5AZL 65 Nj 2014110101 34 99 .52 0 POT 14 P2 M4 .90 TEL TEN .510 NSAZL 55 Nj I 2014/10101 35 99 .54 0 POT 17 P2 M2 .00 TEL TEN .510 N5AZL 55 Nj 2014110101 35 99 1.14 0 POT 20 P2 MI .00 TEL TEN .610 NSAZL 65 Nj 2014/10101 35 99 1.32 0 POT 22 P2 M4 .00 TEL TEN .610 NSA2L 55 Nj 2014/10101 29 190 1.00 0 PLT 15 P2 492 .00 .00 TEL TEN .510 NEA2L 67 Nj 2014/10/01 31 100 1.00 0 POT 35 P2 AiZ .27 TEL TEN .510 N5AZL 67 Nj 2014/10/01 32 100 1,04 0 PLT 15 P2 493 -.05 .00 TEL TEN .610 N5AZL 67 Nj 2914/10/01 34 199 1.34 0 POT 19 P2 493 .05 .00 TEL TEN .610 N542L 67 Nj 2014/10131 34 100 1.00 0 PLT 15 P2 M5 00 .00 TEL TEN .610 NSA2L 57 Nj 2914/10/01 35 100 2.27 0 PLT 27 P2 492 -.05 .00 TEL TEN .610 NSA2L 67 Nj 2013/10.01 35 100 1.35 0 PLT 20 P2 M3 .00 .00 TEL TEN .510 H5A2L 57 Nj 2013/10/01 35 100 2.15 0 PeT 28 P2 Afl .25 TEL TEN .610 N5A2L 57 Nj 2014/10)01 30 101 1.19 0 PCI 21 P2 MIt .00 TEL TEN .510 N5A2L 55 Nj 2014110/01 30 191 .75 3 POT 15 P2 M2 .00 TEL TEN .510 NSA2L 65 Nj I 2014)10/01 30 191 .52 0 PLT 17 P2 494 .00 TEL TEN .510 N5AIL 55 Nj 2014110/01 35 101 L74 0 PCI 36 P2 493 .01 TEL TEN .610 N5AZL 55 Nj 2014/10/01 35 101 2.31 0 PeT 30 P2 494 .00 TEL TEN .610 NBA2L 55 Nj 2013/10/01 25 102 1.39 0 PLT 25 P2 493 -.19 .00 TEL TEN .610 N5A2L 57 Nj 2913/10/01 30 192 2.75 0 PLT 30 P2 492 .00 .00 TEL TEN .510 NEA2L 57 Nj 2014/10)01 30 102 1.34 0 p:Lr 13 P2 M3 .00 .90 TEL TEN .610 N5AZL 67 Nj 2014/10/01 30 102 1.13 0 PLT 15 P2 M4 - .15 .00 TEL TEN .510 N5A2L 67 Nj 2014/10101 31 102 1.62 0 PeT 22 P2 Afl .00 .00 TEL TEN .510 N5A2L 57 Nj 2914/10/91 34 102 .97 0 PLT 35 P2 M4 .05 .00 TEL TEN .510 N5AZL 67 Nj 2014/10101 25 103 1.71 0 PLT 25 P2 492 .03 TEL TEN .610 N5AZL 65 Nj I 2014/10/01 25 103 .59 0 PLT 17 P2 Afl .09 TEL TEN .610 N5A2L 65 Nj 2014/10/01 25 103 .65 0 POT 14 P2 M2 .00 TEL TEN .510 NSA2L 55 Nj 2014110/01 25 103 1.45 0 PLT 23 P2 M3 .00 TEL TEN .510 N5A2L 65 Nj 2014/10/01 25 104 1.67 0 PLT 21 P2 M2 .00 .00 TEL TEN .610 N042L 57 Nj 2014/10/01 25 104 1.35 0 PLT 22 P2 M2 .25 TEL TEN .610 N5AZL 57 Nj 2014/10/31 25 104 1.52 0 PCI 22 P2 413 - .10 .00 TEL TEN .510 N5A2L 67 Nj 2014110101 26 105 2.23 0 PLT 29 P2 M3 .00 TEL TEN .510 NSA2L 55 Nj 2013110/01 27 195 1,01 3 PLT 19 P2 AWl .90 TEL TEN .510 NEA2L 55 Nj 4 ,-.--,--,-+ +---,+.---4---4 + 4 4 .4 INSPDATE ROW CCL VOLTS DES IND PER LNN 1OLN INLHI INLN2 EEOT EDT P014 PTYPE CAL Lj

+ +---- +

Page 28 of 41

- B ANTI-VIERATIOM BAR UBAR INDICATION2 ByrHi 2 82R15 CBE 20141901 10f1012914 154.620

------..----+---_*--.-+_ .----,----+---+---.+---_+_ +-_------#_----+-_#

INDPDATE ROW CCL VOLT2 DEC INC CNN LOCH INCHI INCH2 SECT ET POIA PTYPE CAL 14 1 4----4----+----+----*----4 +

I 27 105 2.10 0 POT 26 P2 AV2 ThC TEN .610 NSAZC 65 Hf I 1jjj 27 105 1.56 6 POT 23 PC AV3 .00 lEO TEN .510 NSAZC 55 Hf I 2314119131 27 105 .72 9 POT 15 P2 AV4 .00 lEO TEN 510 NBAZC 55 lt I 2014119191 29 105 1.34 0 POT 22 P2 M2 .03 lEO TEN .610 NSA2C 65 H I 2014110101 29 105 1.77 0 POT 25 PC .A34 .00 TEC TEN .610 NBAZC 65 Hf j 2014119/01 30 105 2.79 0 POT 33 P2 Mi .09 .00 TEC TEN .610 NSAZC 67 Ht

2013(10101 23 105 1.98 3 POT 15 P2 M2 .13 ICC TEN .510 NSA2C 67 2014119101 24 105 1.13 0 POT 16 P2 AV2 .06 lEO TEN .513 NSAZC 57 HI I 201419/01 25 105 .78 0 POT 12 PC A12 .03 lEO TEN .519 N52C 57 N I 2014110101 25 106 1.05 6 POT 15 P2 AV4 .00 ICC TEN .510 NEAZC 67 Ftf I 2014119/01 3 107 62 3 POT 14 P2 MO .00 TEC TEN .610 NSAZC 55 H I 2014119/31 24 107 0 POT 10 P2 M2 .00 TEC TEN .619 NBA2C 65 H r 2013119101 24 107 .90 0 POT 10 P2 MO .00 lEO TEN .010 NOA2C 65 H I 2314(10101 25 107 1.59 6 POT 20 P2 MC .61 .00 lEO TEN .510 NOAZO 57 H 2014116101 25 107 1.91 0 POT 23 P2 MO .10 lEO TEN .516 NEAZO 67 Hf I 2014/10)01 26 107 1.34 9 POT 16 P2 MC .00 TEe TEN .510 NSAZC 67 HI I 2014110101 23 108 3.45 0 POT 33 P2 MC - .03 lEO TEN .510 NBAZC 57 Hf I 2014(10/31 23 108 1.05 9 POT 15 P2 AV3 - .36 lEO TEN .610 NBAZC 67 Hj 2014(19/01 22 106 2.27 0 POT 25 P2 AV4 -.39 lEO TEN .510 NOAZC 67 NI 2013(19/01 25 106 .93 0 POT 15 P2 MC .30 .90 lEO TEN .610 NOAZC 67 HI 2014110/01 25 103 .64 9 POT 12 P2 MO - .31 lEO TEN .610 NOAZO 67 Nf 2014119191 25 105 2.64 9 POT 29 PC AV4 - .16 .90 lEO TEN .510 NB2C 67 HI 2014110/01 22 109 .95 0 POT 15 P2 Mi -.30 .99 lEO TEN .619 NSAZC 57 Hf I 2014119191 21 110 .66 0 POT 14 P2 M4 .39 .00 lEO TEN .510 NOA2C 67 HI

4 + 4.__.+_-_-4-__.* 4.- 4 4 I IRIPOATE ROW CDL VOLTC DEC INC PER CNN LOCH INCHI INCNC SECT ENOT POIA PTYPE CAL LI 4 4----4---- +----4----+----+----4----, 4 44 4 Page 29 of 41

29 - C ANT1-V16RAT19 0PR WIA 1N0IUAIPJ2 5yrO.x 2 52R18 CSE 29141901 1011912014 1546..20

+ *--__,--_-+-

j ISIPOATI RU CCL CLT2 DE 1140 PER CHU LOCS INCHL INCII2 SlOT IIDT P914 PTPE CAL LI

, **+ +--4----.---,4----+ 4 I 2914119(01 21 6 .71 0 POT 12 P2 AVI .09 TIC TIH .610 NSAZC 45 HI I 14101 22 6 1.55 0 POT 21 P2 A(1 .09 .00 TIC TIH .610 NSAZC 39 HI j 2014110(91 22 5 1.79 9 POT 23 P2 AA4 .00 TIC TEll .519 NSAZC 39 HI 2014110(91 23 5 2.30 POT 27 P2 A4 .13 .99 TIC TIll .610 HSAZC 39 HI I 2014!1G10l 26 6 1.94 0 POT 16 P2 AV2 -.20 TIC TEIi.510 NSA2C 37 HI 2.014110101 26 8 .67 0 POT 14 P2 AV3 -.36 TIC TIll 610 NSAZC 37 HI I 2016(10(31 26 9 1.37 9 POT j:5 P2 AV2 .37 TIC TIH .510 NIAZC 37 HI I 2014110(01 26 0 1.27 0 POT 18 P2 A13 .14 TIC TIll .519 NSAZC 37 HI I 2014(19101 26 9 1.66 9 POT 21 P2 AV4 - .35 TIC TIll .510 USAZC 37 HI Z0L$l10(01 27 11 1.96 0 POT 16 P2 A3 .05 TIC TIll .610 NSAZC 35 HI I 2014(L0l01 29 11 1,79 0 POT 22 P2 AOl .29 TIC TEll .619 NBZC 35 I 2014(19/01 31 12 1.25 9 POT 16 P2 A03 - .13 TIC TEll .519 NSAZC 35 HI I 2914(10(91 26 13 .65 9 PCT 11 P2 AV2 .23 TIC TEll .510 NIAZC 37 HI 2014110101 32 13 .96 0 POT 15 P2 A02 - .05 TIC TEll .610 HIAZO 33 HI I 2913119101 32 13 1.52 9 POT 21 P2 AV3 .00 TIC TEll .610 NSAZC 33 HI 2014119101 31 14 1.44 9 POT 19 P2 AOl .31 TIC TIll .619 NSAZC 35 HI I 2014119101 31 14 1,75 9 POT 2.2 P2 AOl - .15 TIC TIll .619 NSAZC 35 HI 2014119/01 34 15 .46 9 POT 9 PZ AVZ - .39 TIC TIH .619 NOAZO 33 HI I 2013119101 33 16 1.14 0 POT 17 P2 A03 .03 TIC TEll .510 NIAZC 35 H 2016119101 36 16 1.35 9 POT 20 P2 AOL .09 TIC TIll .510 NSAZC I HI I 2014I19101 38 16 1.18 9 POT 17 P2 AO2 .03 TIC TIll .510 NSAZC I . HI 2014110/01 30 17 .66 0 POT 12 P2 AOZ - .26 TIC TIll .619 146.410 33 Hi I 2014119/91 39 17 .79 0 PT 13 P2 A03 .03 TIC TIll .610 NSAZC 33 HI I 2014(19(01 35 17 .71 9 POT 12 P2 1.03 - .31 TIC TIll .610 NSAZC 3 HI I 2014110(31 37 17 1.56 0 POT 23 P2 AOl - .41 TIC TEll .519 NSAZC 3 H[

I 1914/10(31 37 17 1.45 0 PCT 19 P2 AOl .00 TIC TIH .510 HSAZC 3 HI 2014110(91 26 15 .72. 0 PCI 12 p .40:3 .2.1 TIC TIll .610 NSAZC 37 I 2014119101 35 18 1.35 0 POT 19 P2. AO2 .34 TIC TIll .510 N3AZC 3 i 2014(19131 35 1 1.12 3 POT 16 P2 1.02 -.34 TIC TIll .610 145.420 3 HI I 2014(19(01 35 10 .69 3 POT 12 P2 AOl - .37 TIC TIll 610 NSAZC 3 HI I 2014/10(01 36 19 .73 0 ICT 12 P2 .1.V2 -.35 TIC TIll .610 USAZC I HI I 2014f10191 16 19 2.03 9 POT 26 P2 A03 - .09 TIC TIll .510 148.420 1 HI I 2014110/01 39 1 2,55 0 POT 29 P2 .463 - .2.3 TIC TIll .610 NSAZC 33 HI 201410131 16 23 .79 0 POT 14 P2 .462 -.17 TIC TIll .610 NSAZC I HI I 2014119/31 36 29 .95 9 POT 15 P2 .403 .13 TIC TEll .610 140.420 1 HI 2014119101 37 23 1.34 0 POT 15 P2 .402 .53 TIC TIll .610 146.410 3 HI 2014(10/01 39 20 1.40 0 POT 19 P2 .402 .19 TIC TIH .610 UOAZC 35 HI I 2016110(01 36 21 2.90 0 POT 25 P2 .403 -.28 TIC TIll .610 USAZC 1 HI j 2014110101 60 21 2.66 0 POT 30 P2 .462 -.37 TIC TEll .610 146.420 33 HI j 2014110/31 49 21 1.01 0 FCT 15 P2 .463 -.2.9 TIC TEll .610 NSAZC 33 HI 2014(10/01 42 21 .79 0 POT 12 P2 1.02 - .34 TIC TIll .610 145.410 33 i I 2014110131 42 2.1 .81 9 POT 14 P2 1.03 - .48 TIC TIll .610 145.420 33 HI 2014/10131 35 22 1.41 0 POT 19 P2 AOl .22 TIC TIll .610 NOAZO 3 HI I 2014/19.01 35 22 1.91 3 PCT 23 P2 .403 -.22 TIC TIH .613 HSAZC 3 HI 4 + +__++---.----* + + +

I IHIPOATE POW CCL 1IOLTZ 019 INC PER CHN LOCN 1140141 INCH2 SlOT ElIOT P01.4 PTYPI CAL LI 4 4--+ 4 ,. +

Page 30 of 41

20 - C ANTC-i8RAflON 6AR UEA9 IN11ICAT304C 6yri 2 82918 CSE 20121901 10)10/2314 154&29

-+---_._+--------+----.----+----+-*-÷---+

I !NCPDATE ROW CDL VOLTS CEO 190 PEP CHN LDCW INCHI INCN2 SEOT ENOT P314 PflPE CAL L

+-+-+----4----+----+-+-----+--*--4 I 14)13/91 36 22 1.21 9 PCt 17 P2 A2 -.61 TED TEN .610 N8AZC I Hr I 014/19t91 36 22 1.13 9 P27 15 P2 Ad3 - .37 TED TEN .610 NSAZC 1 H 2014/10/or 36 22 1.57 0 PCT 22 P2 AJ1 .32 TED TEN .610 96422 1 HF 2014/10/or 36 22 1.20 0 PCT 19 P2 AJ2 - 45 TED TEN .ers NSAZC I HF 2014113/31 38 22 1.29 0 PCT 15 P2 A3 -.35 TED TEN .610 N5AZC I K I 2014/10/01 36 23 71 0 PCT 13 P2 A12 -.06 TED TEN .610 95422 1 HF I 2014/19/01 37 23 .99 9 PCI 15 P2 492 .14 TED TEN .610 98422 3 H I 2014/10/31 37 23 1.04 0 PCT 16 P2 493 .03 TED TEN .610 95422 3 H I 2014/10/01 42 23 .85 0 PCT 15 P2 493 .13 TED TEN .610 NSAZC 33 Hi I 2014/1001 36 24 .93 0 P27 16 P2 491 -.47 TED TEN .610 N8AZD I HF I 2014/10/51 36 24 2.10 0 PCT 26 P2 443 - .22 TEe TEN .610 NSAZC I H I 2014/19101 35 25 .65 0 PCT 14. P2 491 .16 TED TEN .610 NSAZC 3 H I 2014/19101 35 25 2.42 0 PCT 26 P2 492 -.25 TED TEN .610 NSAZC 3 H 2014110101 35 25 2.07 0 PCI 24 P2 493 -.32 TED TEH .610: NSAZC 3 HF 2014/10/31 36 25 1.21 0 PeT 19 P2 492 .05 TED TEN .610 NSAZC I HF 2014/19/31 38 25 1.06 0 PCT 17 :2 A91 - .12 TED TEH .610 NSAZC I HF 2014/10/01 36 25 1.37 0 PCT 20 P2 FI2 .25 TED TEN .610 NSAZC 1 HF 2014/19131 35 25 .69 0 PCT 15 P2 493 -.10 TED TEN .610 95422 1 HF I 2013/10101 19 25 .92 0 PCI 15 P2 491 -.12 TED TEN .610 NSAZG 33 HF I 2014/19/01 39 25 .71 0 PCT 13 P2 492 .08 TED TEN .610 NSAZC 33 HF 2014113/31 42 25 1.52 0 PCT 21 P2 493 - .17 TED TEN .610 NSAZD 33 HF I 2914/19131 39 26 1.32 0 PCT 18 P2 493 -.35 TED TEN 610 NSAZD 35 HF I 2014/19/31 41 26 1.24 0 PCT 16 P2 442 .03 TED TEN .610 NSAZC 35 HF I 2014/19/31 41 26 1.52 0 PCT 20 P2 443 .30 TED TEN .610 95422 35 Hi 1 2014/10/01 34 27 1.69 0 PCT 22 P2 492 -.03 TED TEN .610 95422 13 HF I 2014/13/91 36 27 1.02 0 PCI 15 P2 493 .05 TED TEN .610 96412 1 HF I 2014/10/91 39 27 .62 0 PCT 14 P2 491 .23 TEC TEN .610 96422 33 HF I 2014/10/31 41 27 1.04 9 PCT 17 P2 492 - .44 TED TEN .610 96422 33 HF 1 2014/10/01 11 26 .90 0 PCI 14 P2 492 .28 TED TEN .610 NBAIC 35 H 2014/10/31 32 28 .92 0 PCI 15 P2 442 .93 TED TEN .610 NSAZC 33 Hi 2014/10/31 32 25 .74 0 PCI 13 P2 493 .99 TED TEN .610 95412 33 H I 2014/19/01 36 28 .77 9 P27 14 P2 493 -.17 TED TEN .610 NEAZC 1 HF I 2014119/51 20 29 1.46 9 PCT 19 P2 442 -.10 TED TEN .610 68412 35 HF I 2014/13/01 20 29 1.31 9 PCT 15 P2. 493 - .26 TED TEN .610 66412 35 Hi I 2014/10/91 29 29 .75 0 PDT 13 P2 444 .25 TED TEN .610 NSA2C 35 HF 2014/19/01 14 29 1.07 0 P27 17 92 442 .92 TED TEN .610 65422 33 Hi 2014/10/91 33 29 .96 0 PCT 16 92 443 -.08 TED TEN .610 NS4ZD 33 H I 2014/19131 42 29 .67 9 PCT 12 92 491 - .14 TED TEN .610 NSAZC 33 Hi I 2013/10/01 42 29 .89 0 PCT 13 P2 492 .22 TED TEN .610 N!AZC 33 HF I 2014/19/31 42 29 1.56 0 PCI 23 P2 493 -.11 TED TEN .610 NSAZD 33 Hj 2013/13/01 29 33 .99 0 PCI 15 P2 492 -.05 TED TEN .610 NSAZD 35 HF I 2014/10/91 35 13 2.03 0 PCT 24 P2 492 .19 TED TEN .610 NSAZD 3 H 2014/10/91 43 33 1.25 0 PCI 15 P2 493 - .41 TED TEN .610 NS42C 35 H 2014/10/01 27 34 .95 0 PCT 15 P2 493 .05 TED TEN .610 NSAZC 30 HF

+ + 4----. + + +

tHCPDATE ROW CDL 4DLTC CEO 190 PER CNN lOCH 1NDHI INCH2 SEOT ENOT 9014 91198 CAL L[

----+----.----+ + ÷ Page 31 of 41

29 - C 4NTI-VIERATIOM BM WEAR IN0ICATION 2 82R18 V5E 20141001 10/1012214 14B2.6 4-+-+-4--+----+-4 4-+-.-+

IN2PCATE ROW VOL OLT2 DEC IND PER CNN 10CM INCHI INUNI SECT SNOT PUIIA PI1PE CAL Lj 44 -+ - *----4----+----+----+----4 + 4-4 2014/10131 37 34 1.69 .3 PCI 15 P2 MI - 32 TEC TEN .613 NSAZV 3 Nj 4(10101 4.3 34 L35 .3 PUT 23 P2 MI - .22 1EV TEN .510 N6AZC 35 Nj I 2014(10121 26 35 .96 .3 PUT 15 j

P2 MI .03 TEC TEN .610 NSAZV 37 Nj I 2614(131 26 35 .33 .3 PUT P2 M4 - .32 1EV TEN .610 NOAZC 37 Nj 2014/10)01 10 15 1.25 .3 PUT 19 P2 MI -.32 7EV TEN .510 NOAZC 33 Nj I 2014(J.0101 39 35 .72 .3 PUT 13 P2 MI .00 1EV TEN .516 NSAZV 33 Nj 2614(1012 39 35 3.07 .3 PUT 32 P2 442 -.02 TEC TEN .616 NSAZV 35 Nj I 2614(10)21 39 35 3.19 .3 PCI 32 P2 MI -.11 ISV TEN .610 NSAZC 33 Nj 2612110(61 46 15 .76 .3 PUT 14 P2 442 .00 7EV TEN .610 NSAZV 33 Nj 2014(10101 31 16 1.14 .3 PUT 17 P2 442 .00 ISV TEN .610 NSAZC 35 NI 2014110(31 43 32 2.13 .3 PUT 24 P2 MI -.40 ISV TEN .513 NSAZV 35 Nj I 2014l10/01 43 35 1.52 .3 PUT 20 P2 444 - .33 1EV TEN .510 NOAZV 35 Nj

£014110121 23 38 1.01 .3 PCT 17 P2 MI .02 7EV TEN .513 NEA2V 19 Nj 2614110(01 33 32 .93 .3 PCT 15 P2 MI .08 ISV TEN .510 NSAZC 35 Nj I 2314/10/01 19 38 1.54 .3 PUT 23 P2 MI - .37 1EV TEN .613 NSAZV 35 Nj I £014!10101 33 33 1.12 .3 PUT 16 P2 442 .10 .00 ISV TEN .616 NSAZC 35 Nj 2614/16131 33 39 1.42 .3 PUT 13 P2 443 - .32 1EV TEN .610 NEA2V 35 Nj 2614/10/21 23 42 1,15 .3 PUT 45 P2 MZ .32 TEC TEN .610 NSAZV 39 Nj 2014110(01 23 43 1.10 .3 PUT 17 P2 443 -.25 7EV TEN .510 N5AZV 39 Nj 2014/10121 39 42 .34 .3 PCI 15 P2 442 .25 7EV TEN .510 NSAZV 35 N.j 2014/10.21 39 42 1.04 .3 PCI 16 P2 MI .03 1EV TEN .516 N5AZC 35 Nj 2014/10(31 29 41 1.12 .3 PUT 15 P2 MI - .22 1EV TEN .510 NSAZC 39 Nj 2914)10101 31 42 .89 .3 PUT 15 P2 442 .05 7EV TEN .610 NSAZC 39 Nj 2014/10121 15 42 1,65 .3 PUT 16 P2 MI - .22 1EV TEN .610 NSAZV 35 Nj 2014110161 29 43 2.10 6 PUT 25 P2 444 .00 1EV TEN .616 NSAZV 39 NI 2014(10101 29 44 .85 .3 PUT 15 P2 MI -02 1EV TEN .516 NEAZV 39 Nj 2916/16101 29 44 1.43 .3 FT 20 P2 .442 .11 1EV TEN .510 NOAZV 39 Nj 2014/10131 29 44 .36 .3 PCI 15 P2 MI - .28 1EV TEN .610 NSAZC 39 Nj 2914(10121 31 42 1,35 .3 PCI 20 P2 442 - .12 1EV TEN .510 NSAZC 39 Nj 2014/16)61 39 39 .57 .3 PUT 14 P2 442 -.35 1EV TEN .610 NSAZC 5 Nj 2014/16131 11 52 .85 .3 PUT 15 P2 MI - .05 1EV TEN .510 N82V 11 Nj 2914)10101 33 5:0 1.12 .3 PVT 16 P2 MI .06 7EV TEN .616 NEA29 31 Nj 2614110/21 37 53 1.67 .3 PUT 24 P2 MI - .13 TEV TEN .610 NSAZV 7 Nj 2014110101 45 56 .65 .3 PUT 11 P2 MI .05 1EV TEN .510 NSAZU 5 Nj 2014(10f21 37 62 .fl .3 PUT 12 P2 442 .09 1EV TEN .516 N52V 11 Nj 2014/10121 37 63 .74 .3 PCI 12 P2 MI .03 1EV TEN .613 NSAZV 11 Nj 261411.3101 16 62 1.63 0 PUT 23 P2 MI .02 1EV TEN .610 NEAZV 11 Nj 2014116101 38 52 1.23 0 PUT 15 P2 MI -.27 TEV TEN .610 NSAZV 11 Nj 201411021 41 63 1.06 .3 PCT 15 P2 MI .24 1EV TEN .610 NSAZV 9 Nj 2914110I31 41 63 3.15 .3 PUT 14 P2 442 -.13 1EV TEN .510 NSAZV 9 Nj 2014l10(01 41 61 1.56 .3 PUT 24 P2 MI .03 1EV TEN .510 N8ZV 9 Nj 2014)10131 31 54 .70 0 PCT 13 P2 MI .16 7EV TEN .510 NSAZC 13 Nj 2014(10161 37 64 .35 .3 PUT 10 P2 442 .22 1EV TEN .516 NSAZV 11 Nj

+----+ 4 4 IMUPOATE ROW CDL OLT3 DEC IND PER CNN 10CM YNVNI INCNI SECT ENOT POlA PTYPE CAL Ij 1

Page 32 of 41

20 - C ANTI-ViBRAT1S 6AR WEAR INOICATIOWS Eyrn 2 82R18 :3E 10141001 10/10/2914 16r3320

+-.----*----+-4--------4----+----,----t---------+---------+--------a------,------4------4--*

INSPSATE ROW CDL VOLTO DES IND PER CHN LOCN INDHI INCH2 EEGT ENOT PSIA PTYPE CAL LI 4 +---4----+- +-4-#-+--#

j 1014113101 40 67 .49 .0 PDT P P2 A14 .03 TED TEN .613 N6AZC H Kl 2014/13/01 32 73 .63 .0 PCT 12 P2 A13 29 TED TEN .510 NEPID 13 HI 2014113/91 32 74 1.46 0 PeT 29 P2 A13 .03 TED TEN .310 N3AZC 15 HI I 2014(10I01 32 73 1.12 9 PCT 13 P2 A13 .10 TED TEN .610 NEA2C 13 HI I 1014(13131 41 70 1.41 0 PCT 21 P2 A13 .33 TED TEN .610 NEAZC 9 H 2014113101 36 80 .63 9 PCT 11 P2 All .00 TED TEN .610 NSAZC 11 H I 1014(19191 35 63 1.34 0 PCT 19 P2 Al3 .03 TED TEN .610 NSAZC 11 H 2016113191 36 83 .74 9 PCT 12 P2 A14 - .16 TED TEN .610 N3AZC 11 HI 1014110101 33 31 .05 0 PCT 16 P2 AV3 .05 TED TEN .610 N8AZC 13 HI I 2014113131 33 31 .60 0 PDT 12 P2 M4 .05 TED TEN .610 H8AZC 11 HI I 2014110191 35 61 1.23 .0 PDT 19 P2 All -.12 TED TEN .513 NOAIC 13 HI j 2014l19/91 39 31 1.13 9 PCT 13 P2 All .03 TED TEN .610 HOAZD 9 HI

) 1014110(91 39 31 .83 9 PCT 15 P2 A93 -.26 TED TEN .515 NSAZC 9 HI I 201$l19101 31 82 1.22 .0 PDT 16 P2 A13 .05 TED TEN .610 NSAIC 15 HI I 101411031 32 32 1.64 0 PCT Zl P2 All - .07 TED TEN .610 NEAZC 15 HI I 1014/10101 35 62 .91 0 PDT 14 P2 All .33 TED TEN .513 NSAZC 21 HI 2014113/01 35 62 1.33 0 PCi 19 P2 A13 - .03 TED TEN .610 N8AZC 21 HI I 2014(10/01 33 82 .66 9 PCi 11 P2 A13 .35 TED TEN .610 NBAZD 11 HI I 2014/13I01 43 62 .57 0 PeT 19 P2 All .13 TED TEN .610 NSAZD H HI 1014119/91 43 52 .77 9 PDT 12 P2 A13 .00 TED TEN .610 NEAZC 11 HI j 2014/10191 32 83 1.18 9 PeT 15 P2 All -.35 TED TEN .510 NSAZC 19 HI J 2014110191 32 63 1.74 3 PDT 22 P2 M3 .03 TED TEN .510 N8AIC 19 HI 1014119101 35 83 1.12 9 PeT 16 P2 A13 .15 TED TEN .510 N!AZC 19 HI I 1314/13191 39 83 2.43 9 PDT 26 P2 All .03 .00 TED TEN .610 N6AZC 19 HI I 1014/19101 33 33 .78 0 PDT 12 P2 A13 .29 TED TEN .610 NSAZC 19 HI I 2014119/91 39 63 1,00 9 PCT 14 P2 Al$ .44 TED TEN .610 H8AZC 19 HI 1014/10131 43 33 3.50 0 PCi 31 P2 All -.27 TED TEN .610 NBAZC 19 HI I 10t4110101 49 83 1.96 9 PDT 23 P2 A13 .03 TED TEN 610 N8AZC 19 HI I 1014(1001 40 03 1.05 0 PCT 15 P2 /.14 -.10 TED TEN .610 NEAZD 19 HI I 1014119101 28 64 1.41 0 PCi 20 P2 A13 .09 TED TEN 610 NSAZC 17 HI j 1014110101 30 04 .95 0 PCi 16 P2 All .16 TED TEN .610 N8AZC 17 HI

2014119131 I 1314119131 37 37 34 66

.76 1.30

.0 9

PeT PCT 13 13 P2 P2 All A13

.13

.05 TED TED TEN TEN

.610

.610 NSAZC NBAZC 17 17 HI HI I 1014(19131 41 84 .83 0 PCT 15 P2 All -.33 TED TEN .610 NBAZD 17 HI 2014119(91 41 64 .47 3 PCT 9 P2 All .13 TED TEN .610 NEAZD 17 HI 1014119191 41 64 1.17 9 PDT 19 P2 A13 -.29 TED TEN .610 68AlC 17 HI 1014119(01 26 85 1.74 9 PT 22 P2 All .00 .00 TED TEN .510 N8AZC 19 HI 1014110191 39 65 1.41 0 PCT 13 P2 All .19 TED TEN .810 N8A2D 19 HI I 014110101 30 35 1.13 0 PDT 17 P2 All .00 TED TEN .610 HEAZC 19 HI I 2014110/91 34 85 1,36 9 PCT 19 P2 All .03 .00 TED TEN .619 N8AZC 19 HI I 201411010l 33 65 1.31 0 PeT 13 P2 A13 .10 TED TEN .510 NSAZD 13 HI I 101$f10131 35 85 1.10 9 PDT 16 P2 All .11 .03 TED TEN .610 NEAIC 19 HI 1014110131 35 85 1.12 9 PeT 26 P2 All .33 TED TEH .610 NSAZC 19 HI I 2014119131 35 85 3.03 0 PeT 33 P2 /.13 .11 TED TEN .610 N8AZD 19 HI 4 --- +

4 4 I INIPSATE ROW CDL VOLTO DES INS PER CHN LOCH INCHI INCNI BEST Et0T PDIA PTYPE CAL LI

-- *--*----, 4 *

Page 33 of 41

SO - C ANTI-VIERATIOM 8AR WEAR INUICATIOMI 6yrn 2 62916 USE 20141001 10/10)2014 15:46:22 1-4-4----4-4----4 14 4 I IHSPDAIE ROW CDL VOLTS DES IND PER CnN LOON !NCHI INCH2 SEST EHOT POIA PRPE CAL LI I + 1 , + 4----. 1--t I 2014/10/21 41 65 .63 0 PCI 13 P2 AOl .03 IEC IEH .510 N5A2C 19 HI 2014110101 41 85 1.29 0 PCI 13 P2 AilS .05 .00 TEe RH .610 NSA2C 19 HI I 2014110101 42 65 1.33 0 PCI 16 P2 393 -.31 Re RH .610 N5flC 19 HI I 20141L0)21 35 86 .80 0 PCI 14 P2 P11 -.03 TEC TEH .610 H6A2C 17 HI I 2014110/01 35 86 2.30 0 PCI 30 P2 P12 - .27 TEe TEH .610 NSA2C 17 HI I 2014110101 35 86 .39 a PCI 15 P2 P13 - .33 TEe IEH 610 NSA2C 17 HI 2014/10101 42 86 .90 0 PCI 15 P2 P11 .00 TEC IEH .510 NSAZC 17 H:

I 2014110101 42 86 1.77 0 PCI 23 P2 P12 - .17 lEe RH 610 HEAZC 17 HI I 2014110/01 42 88 2.55 0 PCI 29 P2 P13 .90 IEC IEH .610 NSAZC 17 HI I 2014/10101 42 86 .56 0 PCI 10 P2 P14 .03 lEe TEH .810 NSA2C 17 HI 2014/10)91 25 67 .65 0 PCI 14 P2 P11 .00 TEC RH .510 NSAZC 23 H:

I 2014110101 15 87 1.73 0 PCI 22 P2 P13 .13 IEC IEH .610 HSAZC 19 HI I 2014110101 35 87 .95 0 PCI 14 P2 P14 .10 lEe IEH .610 HBA2C 19 HI I 2014110101 45 87 1.04 0 PCI 15 P2 394 .00 IEC IEH .610 HSA2C 19 Hi I 2013110(01 35 86 1.11 0 Per 17 P2 P13 - .29 IEC IEH .810 N5A2C 17 HI I 2814110101 41 86 1.32 0 PCI 22 P2 P12 .05 IEC RH .510 NSAZC 17 HI j 2014110101 41 83 2.12 0 PCI 26 P2 493 .11 RU TEH .610 HOflC 17 HI I 2014110131 42 86 1.43 0 PCI 21 P2 392 .. 10 IEC IEH 610 HOAIC 17 HI I 2014110/01 42 38 1.74 0 PCI 23 P2 P13 .00 Re IEH .610 H8A2C 17 HI j 2014110101 41 39 3.33 0 PCI 31 P2 P11 -.37 TEe TEH .610 N532C 23 HI 2014110101 41 89 2.15 0 PCI 25 P2 P12 .06 IEC IEH .610 N5A2C 23 HI j 2014110131 41 89 3.53 0 PCI 32 P2 393 .10 lEe TEH .610 N3AZC 23 HI I 2014110101 41 89 2.62 0 PCI 28 P2 P14 .00 lEe IEH .610 NSA2C 23 HI I 2014(10101 42 89 1.05 0 PCI 17 P2 391 .00 TEC IEH .810 H6A2C 23 HI I 2014110131 42 69 2.39 0 PCI 27 P2 392 .45 IEC TEH .610 H5A2C 23 HI I 2014110(01 42 89 4.91 0 PCI 37 P2 393 .30 lEe IEH .510 NSAZC 23 HI I 2014/10121 42 89 1.05 0 PCI 17 P2 P14 .00 lEe RH .610 N832C 23 HI I 2014110(01 22 90 1.00 0 PCI 16 P2 391 .05 TEe RH .610 H6flC 21 HI I 2014110/01 27 90 .65 0 PCI 11 P2 AWl .30 IEC IEH .610 NSAZC 21 HI 2014110/01 10 98 .66 0 PCI 11 P2 P12 .00 Re IEH .510 HSA2C 21 H:

I I I 2014110101 40 90 .56 0 PCI 10 P2 AWl - .36 IEC TEH .510 N5AZC 21 HI I 2014110101 40 90 .97 0 PCI 15 P2 P12 -.06 RU IEH .610 HSP2C 21 HI I 2814110121 30 90 1,06 0 PCI 16 P2 P13 .06 TEe IEH .610 HSAZC 21 HI I 2014110101 40 90 .30 0 PCI 13 P2 P14 .06 lEe IEH .610 H8AZC 21 HI I 2014110101 42 90 .75 0 PCI 13 P2 P12 - .13 TEC IEH .610 NSAZC 21 HI I 2014/10)01 42 90 2.14 9 PCI 26 P2 P13 .00 IEC IEH .610 NSA2C 21 HI I 2014110)01 42 90 1.01 0 PcI 16 P2 494 .03 IEC lEn .610 HSA2C 21 HI I 2014/10/01 27 91 1.20 0 PCI 16 P2 P13 .02 IEC IEH .610 HSflC 23 HI

2014110101 I 2014/10/01 14 14 92 92 1,31

.37 0

0 PI PCI 22 14 P2 P2 P12 P13

.03

.26 TEC IEC IEH IEH

.610

.610 HSP2C HSAZC 21 21 H:

HI I 2014110/01 14 92 .65 0 PCI 11 P2 P14 .10 RC RH .610 NSA2C 21 HI I 2914(10121 39 92 .76 0 PCI 11 P2 P12 .00 lEe IEH .610 N6AZC 21 HI I 2014/10101 41 92 1.07 0 PCI 16 P2 P11 .27 TEC TEH .610 N6AZC 21 HI I 2014110/01 41 92 .62 0 PCI 11 P2 P12 .13 IEC IEH .610 H3AZC 21 HI I 2014110)21 31 92 2.75 0 PCI 30 P2 493 -.23 TEe IEH .610 HEA2C 21 HI I 2014/10)01 41 92 1.15 0 PCI 17 P2 P14 .02 TEC IEH .610 H8A2C 21 HI

2014110/01 35 93 .98 0 PCI 16 P2 P12 .05 IEC RH .610 NBAZC 23 H:

I 2014/10/21 16 93 1.41 0 PCI 20 P2 492 -.05 lEe IEH .510 HSA2C 23 HI I 2014/10101 19 91 1.17 0 PCI 18 P2 P14 -.03 IEC IEH .610 N6A2C 23 HI 1 + +----1 4 I +----4----4 I IS2PDAIE ROW CDL VOLTS DES IND PER CHN LCCN INCHI IHCH2 BEST ENDI POIA PIYPE CAL LI I +----+ 4444 + +

Page 34 of 41

29 - C ANTI-IISRATION 8AR WEAR IUDICAT39I2 2 62R13 CEE 20141903 10/1012314 I5$820 I tH$PATf POW 001 10115 UEG IND PER CNN LOCH IHCNL INCN2 BECI ENOT POIA PTYPE CAL 1

+ + + 4. 4.

1 2014(19/:31 40 93 1.51 9 POT 22 P2 All .11 lEO TEN .616 N8A2C 3 01U1l31 40 93 1.23 9 PCI 16 P2 A12 .03 lEO TEN .610 NBAZO 23 N I 2014110/01 49 93 2.56 9 PCI 28 P2 A13 -.17 lEO TEN .610 NSAZC 23 H I 2014(19(01 42 93 2.66 9 PCI 19 P2 All - .03 lEO TEN .610 NOAZO 23 N 2014(19(01 42 93 1.49 9 PCI 21 P2 All - .44 lEO TEN .610 NOAZO 23 N I 2014(39(91 42 93 4.00 9 PCI 34 P2 MI - .24 lEO TEN .610 NOAZC 23 HI 2014(1001 42 93 1.16 9 PCI 16 P2 A14 .13 lEO TEN .610 NEAZO 23 N I 2014(10(91 43 93 1.12 9 PCI 17 P2 All .05 lEG TEN .510 NOAZC 21 HI 2016(10(01 43 93 1.34 9 PCI 19 P2 All .03 lEG TEN .610 NBAZC 21 NI 2014(19(01 43 93 1.19 9 POT 18 P2 All -.03 lEG TEN .610 HOAZC 21 HI 1014(1001 34 94 .58 9 PCI 14 P2 All .05 lEG TEN .610 NOA2C 21 HI 2013(19(01 34 94. .70 9 PCI 12 P2 MI .05 TEe TEN .510 N8AZC 21 N 2014(10(01 35 96 1.90 9 PCI 16 P2 All .00 lEG TEN .610 NSAZC 21 NI 2016(13(01 39 96 1.95 9 PCI 16 P2 All .00 lEO TEN .610 NOAZC 21 NI I 2014(10191 39 94 .55 9 POT 19 P2 All .05 lEO TEN .619 N5AZC 21 NI 1014(10(01 42 94 .00 0 POT 15 P2 MI - .06 lEG TEN .610 N6AZO 21 N 2014(13(91 32 9 2.20 9 PCI 26 P2 M3 - .13 TEC TEN .610 NSAZC 21 N I 2016(10)91 32 94 1.92 0 POT 16 P2 A14 .00 lEG TEN .610 NEAZC 21 N Z014(19l01 34 05 1.14 0 POT 19 P2 MI .00 lEG TEN 610 NOAZO 23 FIt 3014119(91 35 95 1.54 0 PCI 22 P2 MI - .21 lEO TEN 610 NSAZC 23 HI 2014)10131 39 95 1.92 9 POT 24 P2 Mi -.07 lEG TEN .610 NOAZO 23 HI 40 27 p2 I 1014(19191 95 2.55 9 POT Ml .00 TEC TEN .610 NOAZC 3 HI I 1014(19/01 35 95 .36 9 POT 14 P2 All .09 lEG TEN .610 NOAZO 21 NI I 1014(10191 35 96 .71 9 PCI 12 P2 Al4 .03 lEO TEN .610 NBAZG 21 HF I 2014119191 36 95 1.60 0 POT 22 P2 All .03 lEG TEN .610 N6AZG II HI I 1014113(91 36 96 .85 9 PCI 34 P2 ,Al:3 - .05 lEG TEN .610 NSAZC 21 NI 1014(10191 39 99 1.15 0 POT 18 P2 All .09 lEO TEN .610 NOAZO 23 HI 2014(19/91 38 99 1,14 0 POT 39 P1 All - .11 lEG TEN .610 NOAZC 23 Nt 2014/19/31 39 190 .79 0 PCI 12 P2 All .05 TEG TEN .610 NSAZC 21 NI 2014/19(91 32 100 .57 9 POT 12 P2 All .03 lEO TEN .619 NSAZC 21 Nt I 1014)10/91 31 100 .50 9 POT 11 P3 All - .12 lEO TEN .610 NOAZC 21 NI 1016(19191 38 . 0 POT 14 P2 All .00 lEG TEN .610 NOA2C 21 NI 2014/101:31 7 101 .74 0 POT 13 P2 A93 .22 lEO TEN .610 NOAZO 27 NI 1014(10(31 28 101 .73 3 PCI 12 P2 MI .29 TEO TEN .610 NOAZC 27 HI 2014/19(31 28 101 .61 9 POT 13 P2 All -.4.0 TEG TEN .610 NBAZC 27 NI 2014(19131 39 101 1,93 9 PCI 17 P2 MI .16 lEG TEN .610 NSAZG 27 NI 201411921 39 101 1.29 3 PCI 12 P2 All - .38 TEC TEN .610 NOAZO 27 Nt 1033(19131 32 191 1.34 9 PCI 16 P2 All .28 lEG TEN 619 NSAZG 27 NI 1014119101 32 101 1.26 9 POT 16 P2 MI - .40 lEG TEN 610 NSAZC 27 NI 1014(13(21 28 103 2.84 9 PCI 29 P2 MI - .26 .00 lEG TEN .610 NSAZC 27 NI 2014119(91 32 103 .65 9 PCI 15 P2 All .90 lEG TEN .610 N8AZG 27 NI I 2014(10(21 39 104 .09 9 PCI 36 P2 All - .29 lEG TEN .610 NOAZO 25 NI I 1016(19121 39 103 .90 9 PCI 15 P2 .A13 - .25 lEG TEN .610 N6AZO 15 NI I 1013(10101 25 105 1.17 9 POT 19 P2 All .00 lEO TEN .610 N8AZC 27 NI I 1014(1931 39 105 1.90 0 PCI 15 P2 A14 -.03 .90 lEG TEN .610 NEAZO 17 NI

4 + *----.

I tN2PDATE ROW CCL IOLTS DEC IND PER CNN ICON YNCHI INOH2 SECT ElIOT POIA PTYPE CAL L

+---, 4. ---+ + 4 4.

Page 35 of 41

26 - C ANTI-U7BRATION EAR WEAR IH0ICAT1O2 Eyr 2 52R16 CEE 23141001 1611612314 i4623 I IWCPDATE ROW CCC VOLTC DEC INC PER CHN LOCH NCIi1 INCH2 SECT ENOT PCIA PTYPE CAL LI I 2014116131 25 105 1.12 0 PCI 17 P2 A1 .12 .06 lEO TEN .610 NSAZC 25 Hi 2014)10191 27 1Q6 1,97 0 PCT 17 P AZ .03 .06 TEC TEN .610 NSAZC 25 HI 1 20f$?10f31 27 106 2.56 0 PCI 29 P2 AVI .12 .00 lEt TEN .610 NEAZC 25 HI 2014113131 25 107 1.55 9 PCI 21 P2 AV4 .03 YEt lEN .510 NEAZC 27 HI 20141f010i 25 135 1.13 0 PCT 17 P2 AVI .23 .96 lEt TEN .519 NEAZC 27 Hi 2913115131 25 195 2.25 0 PCT 25 P2 AV2 .96 lEt TEN .510 NEAZC 27 Hi 20k4116131 25 135 1.99 0 PCI 24 P2 AV3 - .03 .96 YEt TEN .510 NEAZO 27 Hi I 2014116131 25 105 .62 0 PCI 13 P2 AM4 .05 YEt lEN .610 NSAZC 27 HI

+ +----+----. + ÷ + ÷ INCPDATE ROW CCC !IOLTC DEC INC PER CNN LOON INCHI INCH2 SECT EHOT PDIA PIYPE CAL C

+ +----*----4 4- 4-Page 36 of 41

10 - 0 ANTI-VISRATIUK 8AR WEAR IHDATKfNC Byrir 2 62R15 CE.E 20141303 10! 13/2314 i546C0 4 4-4 *+-+--4 + 4----* +-*--4 j INIPOATE ROW CCL OLT1 DIG XNO PER CNN LVCN INCH! INONC 8101 ENOT POIA PTYPE CAL Lf

+-,-+-+----*----+---+----+----+-+-#----4-4-+-+

f 2314110/01 20 5 1.01 0 PCI 18 P2 AV4 .14 1EV TEN .818 N8A2V 9 Hf f Z314119101 23 7 .89 9 PCT 14 P2 AV3 .00 TIC TEN .610 NEAZV 3 Hf 2314113101 25 7 .86 0 PCI 15 P2 AVE -.27 1EV TEH .610 NBAZV 5 Hf I 2014119131 28 Ii .97 0 PCT 16 P2 AV2 .03 rEV TEN .610 NEAZC I Hf I 2314/19(31 26 11 .63 0 PCI 14 P2 A53 -.30 1EV TEN .610 NSAZC I Hf 2314(13/91 31 13 .95 0 PCI 15 P2 Mi -.05 TIC TEN .610 NSAZC 3 Hf I 2314(10/01 31 13 .72 0 PCI 12 P2 AV2 -.06 TIC TEN .610 NSAZC 3 Hf f 2014/19181 31 13 1.58 0 PCI 21 P2 463 - .06 1EV TEN .610 NBAZC 3 Hf f 201411011 31 14 .91 0 PCT 15 P2 464 .00 TIC TEN .610 N8AZC 3 Hf f 2014/10101 35 13 1.20 0 PCI 15 P2 464 .00 .00 1EV TEN .610 N6AZC 43 Hf 2014(13131 32 16 1.12 0 PCI 13 P2 462 .00 TIC TEN .513 N8AZC I Hf f 2014110101 35 17 2,26 0 PCI 25 P2 462 .00 1EV TEN .610 N6AZC 43 Hf f 2014110101 35 17 1.00 0 PCI 13 P2 463 -.05 1EV TEN .610 N8AZC 43 Hf tf 2014/10(01 2014(10/01 36 36 17 17 1.63

.93 0

0 PCI PCI 23 16 P2 P2 462 463

.35

.11 1EV 1EV TEN TEN

.5.18

.6.10 N6AZV N8AZC 41 41 Hf Hf 2014/10131 35 18 1.16 0 PCI 13 P2 462 .05 1EV TEH .510 NSAZC 41 Hf f 2314(10(31 36 19 1.71 0 PCI 23 P2 463 .08 1EV TEN .810 NSAZC 41 Hf f 2014(10131 39 19 .86 0 PCI 12 P2 463 .00 .00 1EV TEN .610 NEAZC 43 Hf f 2014110181 35 23 1.76 5 PCI 23 P2 462 .00 lEO TEN .610 NEAZC 43 Hf f 2014110/01 41 20 1.23 0 PCI 16 P2 461 -.11 .00 1EV TEN .610 NSAZC 43 Hf f 2014(10101 41. 20 2.04 0 PCI 23 P2 462 .03 .00 1EV TEN .610 NSAZC 33 Hf f 2313110!01 36 21 1.53 0 PCI 22 P2 462 .47 1EV TEN .613 NSAZC 31 Hf 2314/10(31 41 21 .66 0 PCI 11 P2 462 .00 .00 1EV TEN .610 NSAZC 43 Hf f 2314110(01 41 21 .78 0 PCT ii PC 463 -.05 .00 1EV TEN .610 N8AZC 43 Hf f 2014(10101 40 22 .92 0 PCI 15 P2 462 .00 TIC TEN .613 N!AZC 41 Hf f 2314(10/31 40 2,2 1.16 0 PCI 15 P2 463 - .31 7EV TEN .510 NSAZC 41 Hf f 2014110101 40 22 1.06 0 PCI 17 P2 464 .14 lEe TEN .510 N3AZC 43 Hf 2313(10101 43 22 1.25 0 PCI 16 P2 461 .08 1EV TEN .610 NEAZC 43 Hf f 2314113101 43 22 1.29 0 PCI 16 P2 462 .15 .00 1EV TEN .513 NEAV 43 Hf f 2014110101 35 25 1.04 0 PCI 17 P2 A62 -.03 1EV TEN .510 NSAZV 41 Hf f 2014/10(01 33 25 1.59 0 PCI 23 P2 463 .08 1EV TEN .610 NSAZC $1 Hf f 2313(10/31 40 25 1.96 3 PCI 17 P2 463 .11 1EV TEN .610 NSAZC 41 Hf f 2314(10(01 30 23 1.27 0 PCI 19 P2 463 .13 1EV lEN .310 N8AZC 31 Hf f Z3i4.(10l01 38 27 .94 0 PCI 16 P2 462 .15 TIC TIN 610 N!AZV 41 Hf f 2014/10101 39 27 .72 9 PCI 13 P2 462 .13 .00 TIC TEN .610 NEAZO 43 Hf f 2313/10(31 39 27 1.01 0 PCI 13 P2 AV3 .13 .00 1EV TEN .610 NSAZV 43 Hf f 2314110/91 37 27 .87 0 PCI 12 PC 464 .05 .00 1EV TEN .510 584CC 43 Hf f 2014(10(0.1 26 28 2.15 0 PCT 26 P2 464 -.36 1EV TEN .510 NSAZV 1 Hf f 2314.110/01 40 23 1.05 0 PCT 17 P2 463 .05 7EV TEN .810 NSAZC 41 Hf 2313(10(31 30 20 3.33 0 PCI 34 P2 462 .03 1EV TEN .610 NSAZC 31 Hf f 2314110131 30 29 2.27 0 PCI 25 P2 463 - .31 1EV TEN .613 N8AZV 43 Hf f 2314(10/01 32 29 1.23 0 PCI 13 P2 462 .03 1EV TEN .610 564CC 41 Hf f 2014(10/31 25 30 1.05 0 PCI 16 PC 463 -.26 rEV TEN .513 NSAZC 3 Hf 4 4 +

f IMCPCATE ROW CCL IOLI2 DEG 152 PER CNN LOCH ENCHI INCH2 BEDI ENDI P014 PTVPE CAL Lf

+ *4++44 * ,----4 4 Page 37 of 41

- 9 ANn-VIBRATION BAR WEAR INOICATION Byron 2 52R16 CBE 141901 11/201.4 1545-20

+ - +----*----+ ---*----+----+----+ - + - +----+ ------ + -

I IN2PDATE ROW COL VOLT2 DEG HID PER CNN LOCN INCHf INCH2 BEGT ET POM PTYPE CAL Li

-- 4-- *--.--+----4---.-+ +----+

I 2W1I 41 3 *7 0 PCT 11 P2 A2 .0 . TEC TEN .610 NSAZC 43 H I 14/10/41 41 32 .91 0 PCT 12 P2 AVI .03 TEC TEN .610 NSAZC 43 4

2014/10191 I 2014110/01 37 37 33 33

.50 2.54 0

0 PC:T P27 11 27 P2 P2 AVI AV2

.09

.04

.20

.40 TEC TEC TEN TEN

.510

.510 NBAZC NBAZC 43 43 H

H j 2914/10(01 3? 33 2.41 9 P27 26 P2 AW:1 .10 TEC TEN .610 NSAZC 43 Hi i 2014/10(41 49 33 1.61 9 P27 22 P2 AV2 .00 TEC TEN .510 NSAC 41 14:

1 2014/10(01 49 33 2.59 9 PCT 34 P2 AVI - .26 TEC TEN .610 NSAZC 31 Hi 201411913C 49 33 1.19 9 P27 19 P2 AV4 .13 TEC TEN .610 NSAZC $1 4 I 2313/19/01 41 33 1.66 0 P27 23 P2 AV2 .09 .20 TEC TEN .619 NBAZC 43 H 2014(10(01 41 33 1,15 0 P27 15 P2 A13 .00 .20 TEC TEN .610 NSAZC 43 HI 2314/10/91 33 34 .87 0 PCT 15 P2 AVZ .11 TEC TEN .510 NBAZC 11 4 2014/10/91 33 34 .89 2 P27 15 P2 AV3 .33 TEC TEN .610 NBAZC 11 H I 2014119(01 6 35 3.34 9 P27 33 P2 AV2 .09 TEC TEN .510 N8C 15 Hi 2314113191 40 36 1.33 0 PCT 24 P2 AV2 -.03 TEC TEN .610 N8AZC 41 Hi I 2014/10(01 40 35 1.59 0 PCT 22 P2 MI .0-0 TEC TEN .610 NBAZC 31 H{

I 2013(19101 32 35 1.93 0 P27 17 P2 AllI .03 TEC TEN .610 NSAZC 41 HI j 2314/10(41 4Z 36 3.94 9 P27 37 P2 AVZ .19 TEC TEN .610 NSAZC $1 Ii I 2014(10101 32 36 2.12 0 P27 26 P2 MI .00 TEC TEN .610 NSAZC 41 H I 014/10(1 36 37 3,42 0 P27 35 P2 AV2 .43 TEC TEN .510 NBA2C 13 NI

) 2014/10191 36 37 2.53 0 PCT 30 P2 A13 .35 TEC TEN .610 NSAZC 13 H[

2014/10(01 37 42 3.93 0 P27 31 P2 AV2 .09 TEC TEN .610 NBAZC 37 H 2014(10/31 37 42 .86 0 PeT 13 P2 MI .03 lEO TEN .610 NSAZC $7 HI I 2014/19191 31 44 3,46 0 P27 34 P2 AV2 .03 .20 TEC TEN .610 NSAZC 51 HI I 2014)10191 31 44 1.70 0 P27 23 P2 MI .00 .20 TEC TEN .610 NSAZC 51 HI 1 I I 2014/10(01 41 44 .73 0 PCT 12 P2 MI .09 .00 lEO TEN .610 NBAZC 47 Hi 2013110/91 41 44 .51 9 9 P2 A14 - .21 .20 lEO TEN .510 NSAZC 4? Hi 1 2014/19141 29 45 .56 0 P27 11 P2 AV3 .00 .40 TIC TEN .619 N82C 51 HI 2013110/01 43 47 1.42 0 PCT 20 P2 AV2 .90 TEC TEN .610 NSAZC 45 HI j .2014110/01 31 59 .87 0 P27 15 P2 Ml .00 .29 lEO TEN .610 NSAZC 51 Hi j 2013/10/01 31 50 1.54 0 PCT 22 P2 AV2 .00 .00 TEC TEN .610 NSPZC 51 H[

3:3 NSAZC 51 I 2014/19(41 31 50 3.16 0 PCT 32 P2 MI .20 TEC TEN .610 HI 2014)10/01 31 50 1.91 0 PCI 16 P2 AV4 .09 .99 TIC TEN .610 NSAZC 51 Hi I 2014/10(01 39 52 .59 0 P27 10 P2 M4 .00 .40 TEC TEN 519 NBA2C 47 HI 2314/13/91 47 56 .92 9 P27 14 P2 MI .09 .90 TIC TEN .510 NSA3C 47 HI I 2014/10(91 47 56 2.99 0 P27 25 P2 AV4 .94 .40 TIC TEN .610 NBAZC 47 Nj I 2013.110/01 21 57 .76 3 P2T 13 P2 A)1 .03 TEC TEN .610 NSAZC 27 Hi I 2014110)91 21 57 .86 0 PCT 15 P2 AV4 .00 TEC TEN .610 NA2C 27 HI 2014/13/41 48 59 2.21 3 P27 26 P2 MI -.17 TIC TEN .610 NSAZC 49 HI 2014(13)01 48 59 1.31 0 PeT 19 P2 AV4 - .27 lEO TEN .510 NSAC 49 HI

( 2014.110/01 41 62 1.45 9 PCT 17 P2 MI .04 .20 TIC TEN .610 NSAZC 31 Hj I 2014110101 41 62 1.99 3 PCT 25 P2 M2 .03 .23 TIC TEN .610 NBAZC 51 Hj I 2014/10l01 41 60 2.59 0 PCT 29 P2 MI .00 .20 TIC TEN .610 NSAZC 51 Hj 2314(10(01 35 62 .92 0 P27 14 P2 Ad2 .16 TIC TEN .510 NSAZC 49 Ni 2014/10/-31 23 63 .71 0 PCT 13 P2 AV2 .09 TIC TEN .510 NSAZC 27 Hi j 2014110101 26 7-0 2.12 3 P27 27 P2 MZ .34 lEO TEN .513 NSAZC 25 NI I 20f4(10141 26 70 1.34 3 PCT 29 P2 MI .04 TIC TEN .510 NBAZC 25 HI 2014/13/41 33 70 1.42 3 PCT 16 P2 MI - .03 TIC TEN .610 NSAZC 27 Hj 2014/13/41 33 70 1.92 3 P27 16 P2 AV4 - .14 TIC TEN .610 USAZO 27 Hj

+ * + 4----+---+----+----+ ----,---- +

j HICPDATE ROW CDL VOLT2 CEO INC PER CNN LOON !NCH1 INCN2 BEOT ENOT POIA PTPf CAL LI

+ ,___-, .4--.-4 + + + + +

Page 38 of 41

20 - D ANTI-VI9RAIION BM WEAR N0ICAT102 6yrcin 2 62fl16 C8E 23141001 10/19/2014 154820 IWCPDATE ROW CDL OLTC CEO INC PER CHN LDC% INCFfI INCH2 8EGT ENT POIA PIYPE CAL LI

+ + 4 + *----4 + 4 4 2014/19/01 43 71 .52 0 PCI 9 P2 A1 -.19 .03 TEe IEH .613 NEAZC 39 Hf 2014/19/91 36 72 .96 0 PCI 15 P2 Al2 .13 TEC TEH .619 NSAZC 37 HI I 2014/1901 38 72 .98 0 PCI 16 P2 A3 .03 TEC TEH .613 NSAZC 37 Hf I 2014/10/91 39 72 1.26 9 PCI 19 P2 AI2 .00 .90 IEC TEH .619 NBAZC 37 f/f I 2014/10/01 39 72 2.22 9 PCI 26 P2 MI .00 TEC 16/1 .613 N6AZC 37 F/f 2014110101 40 73 1.96 9 PCI 15 P2 A/2 -.10 TEC 16/1 .610 N6AZC 39 Hf 2014/10)01 29 75 .67 9 POT 12 P2 MS .00 TEC TE/1 619 NEAZC 27 Hf 2013/10/31 43 78 .79 9 PCI 13 P2 MI -.42 TEC 16/1 .613 NSAZC 37 Hf I 2014/19/01 39 76 2.21 0 PcI 26 P2 M2 .00 TEC TEH .619 NBAZC 37 HI 2014/10/01 28 75 1.32 9 PCI 23 P2 M3 .90 TEC TEH .610 N8AZC 25 Hf I 2914/10/01 33 73 .6* 0 PCI 17 P2 M2 -.46 TEC TI/I, 619 N8AZC 27 Hf 2014/10/01 32 70 1.15 0 PCI 15 P2 Ml .00 TIC TI/I .610 N8AZC 25 Hf 2014/10/01 19 50 1.94 0 PCI 25 P2 AY2 .27 TEC 169 .810 UEAZC 37 Ft I 2014/10/01 39 80 3.67 0 PCI 26 P2 Ml .03 TIC 11/1 .613 NSAZC 37 Hf 2014/10/01 41. 80 2.00 0 25 P2 Ml .15 TEC TEH .610 N2AZC 37 Hf 2014/10/01 41 80 1.02 0 PCI 16 P2 Ml .93 TEC Il/I .310 N6AZC 37 Hf I 2014/10/91 42 69 .66 0 PCI 12 P2 Ml -.96 TEC TI/I .513 N8AZC 37 HI 2014/19/91 46 80 1.30 0 PCI 19 P2 AM$ .56 IEC TEll .619 N8AZC 37 Hf 2014/19/91 19 62 1.33 0 PCI 19 P2 M4 .11 TEC TEll .619 NSA2C 21 Hf I I 2014/19/01 25 62 .69 0 PCI 12 P2 M2 -.11 TEC It/I .610 NEAZC 27 Hj 2014/10101 26 62 .9* 0 PCI 16 P2 Ml .00 TIC TEll .619 N9AZC 25 f/f 1 1 1 2016./10/01 29 62 .68 0 PCI 12 P2 AVZ -.05 TIC TEll .610 NBAZC 27 Hf I I 2014/19/91 36 62 3.16 9 PCI 32 P2 M2 -.05 TIC TI/I .610 N9AZC 37 Hf 2014/19)31 38 82 1.76 9 PCI 23 P2 All .08 TIC 119 .613 NSAZC 37 Hf 2013/10/01 36 62 1.67 0 PCI 22 P2 A14 -.05 .00 TIC TEll .610 N8AZC 37 Hf 1 I 2014/10131 37 82 .96 0 PCI 16 P2 A12 .31 TIC TI/I 610 NSAZC 37 Hf 2014/10/01 37 82 1.31 0 PCI 16 P2 414 -.22 TIC IE% .610 NSAZC 37 Hf I 2014/19/01 15 63 .78 9 PCI 14 P2 412 .00 TIC TEll .619 NSAZC 29 Hf 2014/10/31 35 83 .54 0 PCI 11 P2 414 .25 TEC 119 .610 N9AZC 29 Hf 2014/19/91 36 63 .96 0 P01 15 P2 AlL .26 TEC TEll .510 N6AZC 39 Hf 2014/10/01 38 83 1.58 0 PCI 21 P2 412 .21 TIC TEll .810 HSAZC 39 Hf 2014/10/31 16 63 .95 0 PCI 15 P2 413 .05 TEC 119 .610 NSAZC 39 Hf I 2014/10/31 31 64 1.61 0 PCI 22 P2 AV2 .00 TIC TEll .310 N8AZC 27 Hf 2014/1031 31 84 1.11 0 PCI 1 P2 MI -.96 TIC 11% .610 NSAZC 27 Hf 2014/19/31 31 64 .01 9 PCI 15 P2 .414 .09 TIC Il/I .610 NOAZC 27 Hf 2314/10/31 16 8% 1.27 0 PCI 19 P2 412 .59 TIC TI/I .619 NSAZC 3.7 Hf 2.914/10101 43 85 1.92 0 PCI 15 P2 412 -.16 TIC TEll .610 N6AZC 39 Hf 2014/19/01 33 65 .2 9 PCI 14 P2 413 .93 TIC TEll .610 N6AZC 39 Hf 2014/10/01 41 86 1.52 0 PCI 21 P2 412 .00 .00 TIC lEN .610 NSAZC 37 Hf 2014/10/31 41 66 5,15 0 PCI 42 P2 A/S .00 .03 TIC IEH .610 N8AZC 37 Hf 2014/10/01 41 66 1.20 0 PCI 16 P2 414 - .25 TIC TEN .610 NBAZC 37 Hf 1 2014/19/31 34 67 1.16 3 PCI 18 P2 M2 .90 IEC TEll .510 N8AZC 31 Hf 2314/19/91 34 67 1.26 0 PCI 19 P2 M3 .00 IEC TEll .610 N8AZC 31 Hf 2014/19)91 37 87 1.19 0 PCI 17 P2 MS .13 .03 TIC TEll .610 NSAZC 39 Hf 4 4 + 4 +

tN2PDATE ROW CDL 10112 CEO INC PER Cf/N 1CC/I !NCHL INCH2 SEOT E/DI POIA PIYPE CAL Lf

+ 4 4---. + 4 + + +

Page 39 of 41

29 - C ANTI-VIBRATIrn 8AR WEAR IHDICATIO149 ByrOn 2 BRIS CII 20141001 10)10/2014 154&25

+-*--------*

I IH5PDATI ROW CCL lIXT$ 019 INC PER CHN 10014 INCHI INCH2 SECT INOT POIA PTIPI CAL LI

+ 4----*----+---+ 4 + 4 4 *4 I 201410)03 43 87 .7 0 POT 12 92 MI TIC TIH .610 NSAZC 39 HI 2014119101 45 59 .55 0 POT 14 92 AIM .03 .00 TIC TE14 .510 N3AZC 39 Hf 13/13(01 43 9:0 2.45 0 POT as 92 MI .65 TIC TIH .510 NSAIC 37 I 2014/10101 35 91 .92 0 POT 16 92 MI .63 TIC TIH .610 NEA2C 29 H 2014/10/01 15 91 .77 0 POT 14 92 MI .00 TIC TIH .610 NOAZO 29 Hf 2014/10/01 41 CI .52 0 POT ii 92 AIM - .28 TIC TEH :610 NOAZC 19 HI 2014.119191 35 92 .85 0 POT 15 P2 MI .19 TIC TEH .610 NOAZO 29 I 2014110/01 35 92 .85 0 POT 15 P2 AV3 .63 TIC T114 .610 NSAZO 29 Hj I 2014(19/01 40 92 1.53 9 POT 21 P2 M3 .05 TIC TEH .510 NEAZO 37 I 2014110/31 41 92 .75 0 POT 12 92 MI .93 TIC TEH .510 NSAZC 37 HI I 2014110101 41 92 1.11 0 POT 10 P2 MI .03 TIC TIH .810 NBAZC 37 H 2014/10/01 16 94 .79 0 POT 13 92 MI .03 TIC TEH .610 NSAZC 37 HI I 2014/10191 15 94 .73 0 POT 13 92 MI .36 TIC TE14 .510 NOAZO 37 HI I 2014110101 35 94 1.27 0 POT 19 P2 M3. .08 TIC TIN .619 NSAZO 37 HI I 2014.110/91 22 95 .65 0 POT 12 P2 AV4 .63 TIC TIH .610 NSAZO 27 t I 2014/10/01 14 g .00 3 POT 15 92 MI .09 TIC TEH .610 NSAZC 31 I I 2014/10/01 35 95 3,27 0 POT 34 92. MI .03 TIC TEH .610 NSAZC 29 Hf I 2014)13/01 35 95 .09 0 POT 16 P2 MI .00 TIC TEH .610 NOAZC 29 I 2014./10/31 36 95 .87 0 POT 14 P2 MI .13 TIC TIH .610 NOAZO 39 HI 2013l19/91 34 97 .63 0 POT 14 92 Mi .03 TIC 7114 .610 HSAZO 31 HI I 2014/lOlDI 34 97 2.50 0 POt 26 P2 Ml .68 TEC TIH .610 NBAZC 31 I I 2014)10)01 34 97 .80 0 POT 14 P2 MI .12 TIC TIH .610 HOAZO 31 HI I 2614/10131 34 95 .73 0 POT 13 P2 MI .03 TEO TEN .510 NSAZC 31 i 2014110131 34 g 1.36 0 POT 20 92 Ml .03 TIC TEH .610 NOAZC 31 Hf I 2014119131 34 98 .52 0 POT 13 92 AIM .03 TIC TIll .510 NSAZC 31 14f I 2314110/01 31 100 .97 3 POT 15 P2 Mi .16 TIC TEH .510 NEAZO 33 HI I 2014/10/01 11 103 1.01 9 POT 15 92 MI -.29 TIC TEll .510 NSAZO 33 Ht I 2014/13/01 34 100 1,02 0 POT 16 P2 Mi .07 .03 TIC TEll .510. NBAZO 33 HI 2014/10131 36 100 1.43 0 POT 20 92 MI -.08 .00 TEC TEll .510 NSAZO 33 HI 2014/10/01 34 103 1.02 0 POT 16 92 ///4 .00 TIC TEll .610 NSAZC 33 HI I 2014/10101 30 193 1.16 0 POT 1? P2 AIM .03 TIC TIll .610 NSAZC 33 HI I 2014113)31 28 102 1.21 0 POT 18 P2 MI - .03 TIC TIll .810 NOAZO 33 HI I I 2014110/01 29 102 1.16 0 POT 17 P2 MI .22 .00 TIC TIll .510 NOAZO 33 H I 2014/10./01 34 162 1.33 0 POT 19 P2 M4 .63 .00 TIC TEll .510 NSAZO 33 HI I 2014113131 30 103 1.64 0 POT 22 92 MI .68 TIC TEll .610 NBAZC 35 HI I 2014/13/91 31 103 1.54 0 POT 21 92 MI .03 TIC TEll .510 NEAZC 35 HI I 2014/10191 31 103 1.44 0 90.7 29 P2 AIM .06 TEC TIll .510 NSAZC Hi 2314110)31 11 103 1.18 0 POT 18 92 M4 .05 TIC TIll .510 NSAZC I 2014110101 as 104 .50 0 PCT 13 92 MI .05 TIC TIll .510 NSAZC 33 I I 2013/13101 30 106 1.15 0 POT 19 92 Ml .06 TIC TEll .510 NBAZC 33 HI I 2014/10/31 39 104 1.17 0 POT 17 P2 M4 -.15 TIC TEll .510 NEAZO 33 HI I 2014/19/01 31 104 1.02 3 POT 15 P2 AIM -.36 TIC TEN .610 NSAZC 33 H I 2014110)01 31 104 1.46 0 POT 20 P2 MI -.33 TIC TIll .610 N5AZC 33 H I 2014/10101 26 107 1.32 0 POT 19 92 Al/I - .05 710 TIll .510 NSAZC 35 H I 2014/10/01 28 107 .94 0 POT 15 92 M4 - .13 TIC TIll .510 NSAZO 35 HI

+ + *____4_.4 + * + +

I IN2POATE ROW OCL VOLTI 019 2ND PER 01414 10014 INCH! 1140142 SECT ENOT POIA PTYPE CAL LI 4 + + 4 + * +

Page 40 of 41

4 4. + 4 I I I I

+ + .4.

a.uILnnI_JI

.1 4: I fl fl Fri 14: I UI It, I

+ -C- -,

-F

-I UU0,F4l 0 IU. 4MF4IU.

4 1+ 14:4:4: l O = I Z r a

.4. + 4- +

0 I0I0,.4riI0I l

ID.: -:0.:

I-

-2. 4. 4-2 IZ 0 ItL1OJItJI phi i hi F 4 4. 4 4- IWO 14-

0 hibihi 0 I4.I 4-4 lU phi: I0:

4. 4. 4. 4.

4.4 4.4 iQ I F + + +

114 IO0tt,I-4 I :040::!:

I0 Zr IZI 0

0

.4. * .4. 4

:I144.4II

-4 lUI 0

4.4 I_I 4 4. 4. 1 IU Z 4.44.40 hi IIaaa:

4 4. 4. +

0

0. 11014 I *1 hi 4.1 CU a

2.4. 2.4. Cl) 0 01514-101 0 Z 04.3 Ci Z 0) 4- *o0.a0.I-ct 0

2.2.

IOI000IOI

2. ft.

o ui LU

°:

00I!

11 II4.I4 4-ha I: I. I_LI I0I.444IOI 10 I z * + +

0 O 000010 4- 1014-1-10 4: I

0. 4- -t 4 It, I3IhiUlUiI 104.44.14.40 4.4.. Ia 10 O 4. 4 4.

4- 0.

I Ii 4-04.404-4: 10 4: .. :4:

0 :000:0

0.1-414.4 i0.

4.-i :4.

O I2IritntI:!:

C 4.41.4.414.4 0 1000 I. I 4.IILI3 0

U hi

v t e Letter Sequence Request
TAC:MF5776, (Approved, Closed)
Initiation Request Acceptance... Administration Questions Answers 17 July 2015 Results Approval Other:
MONTHYEAR2015-07-17 [Table View]

BYRON 2015-0013, Steam Generator Tube Inspection Report for Refueling Outage 18

Text

Subject:

Attachment:

Navigation menu

BYRON 2015-0013, Steam Generator Tube Inspection Report for Refueling Outage 18

Text

Subject:

Attachment:

Navigation menu

Search