Part 2 of 2, St. Lucie, Unit 1 - Reactor Vessel Surveillance Capsule, Report of Test Results - Revision 1, Appendix B, Charpy V-Notch Plots for Each Capsule Using Hyperbolic Tangent Curve-Fitting Method

ML021280610
Person / Time
Site:	Saint Lucie
Issue date:	05/02/2002
From:	Jernigan D Florida Power & Light Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
L-2002-082, TAC MB0554 WCAP-15446, Rev 1
Download: ML021280610 (128)
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Text

APPENDIX B Charpy V-Notch Plots for Each Capsule Using Hyperbolic Tangent Curve-Fitting Method B-0

V Contained in Table B-I are the upper shelf energy values used as input for the generation of the Charpy notch plots using CVGRAPH, Version 4.1. Lower shelf energy values were fixed at 2.2 ft-lb. The unirradiated and irradiated upper shelf energy values were calculated per the ASTM E 185-82 definition of upper shelf energy.

TABLE B-I Upper Shelf Energy Values Fixed in CVGRAPH Material Unirradiated Capsule 970 Capsule 1040 Capsule 2840 Lower Shell Plate C-8-2 139 ft-lb 107 ft-lb 116 ft-lb 110 ft-lb (Longitudinal Orientation)

Lower Shell Plate C-8-2 103 ft-lb 78 ft-lb - 88 ft-lb (Transverse Orientation)

Weld Metal 144 ft-lb 100 ft-lb 108 ft-lb 110 ft-lb (Heat# 90136)

HAZ Material 133 ft-lb 114 ft-lb 104 ft-lb 93 ft-lb 134 ft-lb 87 ft-lb -

HSST 01 Material B-1

LOWER SHELL C-8-2 (LONGITUDINAL)

C`VQRAPH 41 Hyperbolic Tangent Curve Printed at Mf12,59 on 05-12-2000 Results Curve Fluence ISE d-ISE USE d-USE T o 30 d-T o 30 T o 50 d-T o 50 0 2.19 0 139 0 725 0 3523 0 2 0 2.19 0 107 -32 75.95 68.7 114.91 79.67 3 0 Z19 0 116 -23 8712 79.87 122.62 87.38 4 0 2.19 0 110 -29 95.18 37.93 130.62 95.38 7

z C-)

-300 -200 -100 0 100 200 300 400 5W0 600 Temperature in Degrees F Curve Legend 10- 3 9, 4 -

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SLI UNIRR PLATE SA533B1 LT C--8-2 2 SLI W-97 PLATE SA533BI LT C-8-2 3 SLI W-104 PLATE SA533BI LT C-8-2 4 SLi W-284 PLATE SA533BI LT C-8-2 B-2

LOWER SHELL C-8-2 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 10f.18:11 on 05-12-2000 Results Curve Fluence USE d-USE T o LE35 d-T o LE35 1 0 87.47 0 35.58 0 2 0 80.41 -7.06 111.19 75.6 3 0 96.66 9.19 108.39 72,8 4 0 7913 --8.33 131.61 96.03 U)

P-4

-300 -200 -100 0 100 200 300 400 5w0 600 Temperature in Degrees F Curve Legend 10 4-Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SLi UNIRR PLATE SA533B1 LT C-8-2 2 SLI W-97 PLATE SA533BI LT C-8-2 3 SLl W-104 PLATE SA533BI LT C-8-2 SL1 4 W-284 PLATE SA533BI LT C--8-2 B-3

LOWER SHELL C-8-2 (LONGITUDINAL)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 1JR46:22 on 05-12-2000 Results Curve Fluence T o 50z Shear d-T o ,q*z .qhp*r T @50;/ Shear rl-T

• 50-/. R~pnr 1 0 69.37 0 2 0 153.58 842 3 0 125.97 56.6 4 0 154B85 85.47

,rJ C/

4-)

-300 -200 -100 0 100 200 300 400 5W0 600 Temperature in Degrees F Curve Legend 10 4 "'

Data Set(s) Plotted Curve Plant Cansule Material Ori_ ttozt!/

MateialOr fleaU 1 Sil UNIRR PLATE SA533BI LT C-8-2 2 SLi W-97 PLATE SA533BI LT C-8-2 3 SLI W-104 PLATE SA533BI LT C-8-2 4 SbL W-284 PLATE SA533BI LT C-8-2 B-4

LOWER SHELL C-8-2 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 10.38.51 on 05-12-2000 Results Curve Fluence [SE d-ISE USE d-USE T o 30 d-T o 30 T @50 d-T o 50 1 0 2.19 0 103 0 15.37 0 46.01 0 2 0 2.19 0 78 -25 7921 638 138.44 92.43 3 0 219 0 88 -15 100.37 84.99 143.57 97.55 0

-300 -200 -100 0 100 200 3w0 400 5M0 600 Temperature in Degrees F Curve Legend 10- 20----- 30 -

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SLI UNIRR PLATE SA533B1 TL C-8-2 2 SLI W-97 PLATE SA533B1 TL C-8-2 3 SLI W-284 PLATE SA533B1 TL C-8-2 B-5

LOWER SHELL C-8-2 (TRANSVERSE)

CVGRAPH 4] Hyperbolic Tangent Curve Printed at 1055:16 on 05-12-2000 Results Curve Fluence USE d-USE T LE35 d-T o LE35 1 0 72.66 0 44.98 0 2 0 66.98 -5.68 125.42 80.44 3 0 67.81 -4.84 136.08 91.1 co=

"0-q

-300 -200 -100 0 100 200 300 400 500 6w0 Temperature in Degrees F Curve Legend 10 20 --.----- 3 -

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

3 SLI UNIRR PLATE SA533BI TL C-8G-2 2 Sil W-97 PLATE SA533BI TL C-8-2 3 SLI W-284 PLATE SA533BI TL C-8-2 B-6

LOWER SHELL C-8-2 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 11.-2:12 on 05-12-2000 Results Curve Fluence T o 50>' Shear d-T o 50x Shear 1 0 76.4 0 2 0 174.84 98.43 3 0 162.18 85.78 01 (ID 03 C)

-300 -200 -100 0 100 300 400 500 600 Temperature in Degrees F Curve Legend 10 20-----

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SL1 UNIRR PLATE SA533B1 TL C--8-2 2 SLI W-97 PLATE SA533B1 TL C-8-2 3 SLI W-284 PLATE SA533BI TL C-8-2 B-7

SURVEILLANCE WELD C`VGRAPH 41 Hyperbolic Tangent Curve Printed at 11:10.14 on 05-12-2000 Results Curve Fluence LSE d-LSE USE d-USE To 30 d-T o 30 T o 50 d-T @50 1 0 2.19 0 144 0 -57.99 0 -35.6 0 2 0 2.19 0 100 -44 14.35 72.34 42.73 78.33 3 0 219 0 108 -36 9.41 67.4 39.85 75.45 4 0 2-19 0 110 -34 10.01 68 31.58 67.19 Y..)

0L z4

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Curve Legend 1i3 3----- 4-Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#I 1 Ski UNIRR WELD 90136,LINDE 0091,LOT 3999 2 SLI W-97 WELD 90136,LINDE 0091,T3999 3 SLI W-104 WELD 90136JINDE 0091MT 3999 4 SL1 W-284 WELD 90136,L1NDE 0091,L073999 B-8

SURVEILLANCE WELD CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12:33:42 on 05-12-2000 Results Curve Fluence USE d-USE T @LE35 d-T o LE35 1 0 92.06 0 -32.8 0 2 0 76.62 -15.44 40O3 73.63 3 0 87.13 -4.93 23.19 55.99 4 0 7729 -14.76 28.64 61.44 CI)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Curve Legend to 30 4^

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SLI UNIRR WELD 90136,LINDE 0091,11T 3999 2 SLi W-97 WELD 90136,LINDE 0091,LOT3999 3 SLI W'-104 WELD 90136JINDE 009110DT 3999 4 SLI W-284 hEL 90136LINDE 0091O0y3999 B-9

SURVEILLANCE WELD CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12.4455 on 05-12-2000 Results Curve Fluence T o 50z Shear To%/zShear dT05y l 1 0 -13J2 0 2 0 61.4 74.53 3 0 30.93 44.06 4 0 39.53 52.65 C/D 09 0

0

-300 -2W -100 0 100 200 300 400 50 600 Temperature in Degrees F Curve Legend l0 4 ,-

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat*

Heat#l 1 SLI UNIRR Ori.

WELD 90136,LINDE 0O91JDT 3999 2 SLI W-97 WELD 90136,LINDE 0091J/3999 3 SLI W-104 WELD 90136,LINDE O091,LOT 3999 4 SLI W-284 WELD 90136,LINDE 0091,10T999 B-I 0

SURVEILLANCE HEAT-AFFECTED-ZONE CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at i253:20 on 05-12-200 Results Curve Fluence LSE d-LSE USE d-USE T o 30 d-T @30 T o 50 d-T o 50 1 0 2.19 0 133 0 -79.66 0 -37.36 0 2 0 219 0 114 -19 -60.18 19A8 5.5 42.87 3 0 219 0 104 -29 -19.86 59.8 26.88 6425 4 0 219 0 93 -40 -4.87 74.79 44.91 8227 In zU

-300 -200 -100 0 100 200 300 400 500 6O0 Temperature in Degrees F Curve Legend 10 30- ... 4^

Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

1 SLI UNIRR HEAT AFFD ZONE C-8-2 SIDE OF WELD 2 SLI W-97 HEAT AFFD ZONE C-8-2 SIDE OF WELD 3 SLI W-104 HEAT AFFD ZONE C-8-2 SIDE OF WELD 4 SLI W-284 HEAT AFFD ZONE C-8-2 SIDE OF WELD B-11

SURVEILLANCE HEAT-AFFECTED-ZONE CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13.06:37 on 05-12-2000 Results Curve Fluence USE d-USE T o LE35 d-T o LE35 1 0 91.95 0 74 0 2 0 8018 -11.76 7.75 30.5 3 0 8224 -9.71 18.33 41.08 4 0 65.06 -26.89 42.01 64.76 cf

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Curve Legend 10 3 -- 4-Data Set(s) Plotted Curve Plant Capsule Material Ori. Heat#

II 1 SLI UNIRR HEAT AFIlD ZONE C--8-2 SIDE OFWELD 2 SLI W-97 HEAT AFFD ZONE C--8-2 SIDE OFWELD 3 SLI W-104 HEAT AFFD ZONE C-8-2 SIDE OFWELD 4 SL1 W-284 HEAT AFFD ZONE C48-2 SIDE OFWELD B-12

SURVEILLANCE HEAT-AFFECTED-ZONE CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:14:55 on 05-12-2000 Results Curve Fluence T o .iflz ,Shear A-T o 5if/ *h*ar Curve Fluen. T o 50Y Shear d-T @ ýý/ qhpnr 1 0 Z.34 0 2 0 40.31 37.96 3 0 1453 12.18 4 0 29.06 26.71 C/'

Q~)

-300 -200 -100 0 100 200 300 400 500 600 1 Temperature in Degrees F Curve Legend 10 34 - 4 Data Set(s) Plotted Curve Plant CaDsule Material Ori. Heat/I Ori. Heat#

1 SLI UNIRR HEAT AFFD ZONE C--8-2 SIDE OF WELD 2 SLI W-97 HEAT AFFD ZONE C-8-2 SIDE OF WELD 3 SLI W-104 HEAT AFFD ZONE C--8-2 SIDE OF WELD 4 SLI W-284 HEAT AFFD ZONE C--8-2 SIDE OF WELD B-1 3

CAPSULE W-284 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 08.56l1 on 05-08-2000 Page 1 Coefficients of Curve I A = 56.09 B = 53.9 C = 85.43 TO = 140.33 Equation is- CVN = A + B * [ tanh((T - TO)/C) ]

Upper Shelf Energy: 110 Fixed Temp. at 30 ft-lbs- 95.1 Temp. at 50 ft-lbs: 130.6 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533BI Heat Number. C-8-2 Orientation: LT Capsule: W-284 Total Fluence:

30(J3 *1* -Y 4 + 4 .4 4 4 254U 200 U_)

1507 100oo 1U

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SL1 Cap: W-284 Material: PLATE SA533B1 Oni: LT Heat k. C-8-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential 5 8 6.55 1.44 25 12 898 3.01 50 7 13.8 -6.8 12 16 20.31 -4.31 80 19 23.31 -421 100 40 32.39 7.6 120 55 43.5 11.49 135 49 52.74 -3.74 150 56 62.17 -6.17

• • • Data continued on next page **

B-14

CAPSULE W-284 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number. C-8-2 Orientat:ion: LT Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 200 88 88.62 -.62 275 107 105.58 1.41 325 112 108.53 3.41 SIJM of RESIDUALS = 241 B-1 5

CAPSULE W-284 (LONGITUDINAL)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 0857:33 on 05-08-2000 Page 1 Coefficients of Curve 1 A 40.06 B = 39.06 C = 95.98 TO = 144.14 Equation is LR = A + B [ tanh((T - T0)/C) I Upper Shelf LE. 7913 Temperature at LE. 35: 131.6 Loiwer Shelf LEa I Fixed Material: PLAT ESA533B1 Heat Number C-8-2 C)rientation: LT Capsule: W-284 Total Fluence:

2007 --

0'4 1507 Cl) 0 -"0 0

- q .1.

A 50~-t

/0 t +/- -,'--4 _________

I 0ý ri.ininP

[

tJ t 4 4

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-284 Material: PLATE SA533B1 Ori- LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE. Differential 5 3 5.07 -2.07 25 12 7.02 4.97 50 9 10.63 9 -1.63 72 1521 -621 80 14 1725 -325 100 28 2326 4.73 120 40 30.44 9.55 135 32 36.35 -4.35 150 40 42.45 45

-"Data continued on next page "*

B-16

CAPSULE W-284 (LONGITUDINAL)

Page 2 Mater ial: PLATE SA533B1 Heat Number: C-8-2 Orientat:ion: LT Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE, Differential 200 59 60.54 -1.54 275 78 74.33 3.66 325 75 77.37 -237 SIJM of RESIDUALS = -.99 B-17

CAPSULE W-284 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 08.:49 on 05-08-2000 Page 1 Coefficients of Curve 1 A= 50 B= 50 C= 96.84 T0 = 154.85 Equation is:. Shear/ = A + B

• tanh((T - T0)/C) ]

Temperature at 50x Shear. 154.8 Material: PLATE SA533BI Heat Number. C-8-2 Orientation: LT Capsule: W-284 Total Fluence:

4)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant. SL1 Cap: W-284 Material: PLATE SA533BI Ori: LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential 5 3 433 -1.33 25 10 6.4 3.59 50 5 1028 -528 72 15 15.3 -.3 80 20 17.56 2.43 100 30 24.36 5.63 120 35 32,74 225 135 40 39.89 1 150 40 47.49 -7.49

• • Data continued on next pageI B-18

CAPSULE W-284 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number. C-&-2 Orientation: LT Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 200 70 71.75 -175 275 100 9228 7.71 325 100 97.1 2.89 SUM of RESIDUALS = 8.46 B-1 9

CAPSULE (TRANSVERSE)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 09.06:46 on 05-08-2000 Page 1 Coefficients of Curve 1 A = 45.09 B= 42.9 C= 89.54 TO = l33.3 Equation is CVN = A + B

• I tanh((T - T0)/C) I Upper Shelf Energy: 88 Fixed Temp. at 30 ft-lbs 100.3 Temp. at 50 ft-lbs 143.5 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: TL Capsule: W'-284 Total Fluence:

Cf 2 0

z C.)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap.. W-284 Material: PLATE SA533BI Ori: TL B leat #:C-8-2 Charpy V-Notch Data Temperaature Input CVN Energy Computed CVN Energy Differential 10 15 7.33 7.66 50 14 13.75 24 90 28 25.83 216 100 27 29.84 -2.84 115 37 36.45 .54 125 42 4113 .86 135 37 45.91 -8.91 150 57 53 3.99 175 66 63.74 225 SData continued on next page -*

B-20

CAPSULE (TRANSVERSE)

Page 2 Material: PLATE SA533BI Heat Number. C-8-2 Orientation: TL Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 220 77 7718 -.18 275 92 84.52 7.47 325 83 86.83 -3.83 SUM of RESIDUALS = 9.43 B-21

CAPSULE W-284 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 091324 on 05-08-2000 Page 1 Coefficients of Curve I Au=a34.4 Bi= 33.4 = C 9121 T =134)47 Equation is:. LE. = A + B Itanh((T - TO)/C)I Upper Shelf LE. 67.81 Temperature at Li 35: 136 Lower Shelf LEz 1 Fixed Material: PLATE SA533B1 Heat Numbers C-8-2 Orientation: TL Capsule: W-284 Total Fluence:

200F-----

.r,.

150fF S

I an-

.__0 0 0

10 rFr

[

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-284 Material: PLATE SA533B1 Ori- TL Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LK Differential 10 10 5.09 4.9 50 11 10.06 .93 90 24 1929 4.7 100 19 22-35 -325 115 24 27.38 -a38 125 28 30.95 -2.95 135 34 34.6 150 - .6 43 40.04 2.95 175 49 48.34 .65

• • • • Data continued on next page '*

B-22

CAPSULE W-284 (TRANSVERSE)

Page 2 Material: PLATE SA533B1 Heat Number-. C-8-2 Orientation: TL Capsule: 1Y-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 220 60 58.93 1.06 275 69 64.88 4.11 325 62 66.8 -4.8 SUM of RESIDUALS = 424 B-23

CAPSULE W-284 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09-10.35 on 05-08-2000 Page 1 Coefficients of Curve I A = 50 B = 50 C = 73.98 TO = 162.18 Equation is Shearz = A + B * [ tanh((T - T0)/C) ]

Temperature at 50. Shear 162.1 Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: TL Capsule: W-2e4 Total Fluence:

02 CID C-)

0-

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: Wi-284 Material: PLATE SA533B 1 Oni: TL Heat #: C-8-2 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential 10 10 1.6 839 10 4.59 5.4 50 755 90 20 12.44 20 15.69 4.3 100 -183 115 20 21.83 25 26.79 -1.79 125 -2.41 135 30 32.41 40 41.83 -1.83 150 -857 175 50 58.57

"** Data continued on next page

• B-24

CAPSULE W-284 (TRANSVERSE)

Page 2 Material: PLATE SA533BI Heat Number C-8-2 Orientation: TL Capsule: W-284 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 220 95 82.67 12.32 275 100 95.47 4.52 325 100 98.78 121 SUM of RESIDUALS = 2727 B-25

CAPSULE W-284 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09:16:41 on 05-08-2000 Page I Coefficients of Curve 1 A = 56.09 B = 53.9 C = 52 TO = 37.5 Equation is: CVN = A + B

• I tanh((T - TO)/C) ]

Upper Shelf Energy: 110 Fixed Temp. at 30 ft-lbs: 10 Temp. at 50 ft-lbs: 31.5 Lower Shelf Energy: 2.19 Fixed Material: WELD Heat Number- 90136,LINDE 0091,L0T3999 Orientation:

Capsule: W-284 Total Fluence:

Cf3 WdU 0ý 50 0-

-3CX) -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted

]lant: SLI Cap- W-284 Material: WELD Orn Heat #: 90136,LINDE 0091,LOT3999 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-50 5 5.8 -.8

-10 12 1714 -514 0 26 22.81 3.18 10 18 29.98 -11.98 15 36 3413 1.86 25 34 43.38 -9.38 30 63 48.38 14.61 40 65 58.68 6.31 100 87 101.06 -14.06

- Data continued on next page ***

B-26

CAPSULE W-284 (WELD)

Page 2 Material: WYELD Heat Number 90136,LINDE 0091L0T3999 Orientation:

Capsule: W-284 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 150 107 108.59 -1.59 200 115 109.79 52 250 107 109.96 -2.96 SUM of RESIDUALS = -14.75 B-27

CAPSULE W-284 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 0918.03 on 05-08-2000 Page 1 Coefficients of Curve I A= 39.14 B = 38.14 C = 46.73 TO = 33.75 Equation is LK = A + B *[ tanh((T - T0)/C)

Upper Shelf LE- 7729 Temperature at LK 35: 28.6 Lower Shelf Li: I Fixed Material: WELD Heat Number 90136,LINDE 0091,LOT3999 Orientation:

Capsule: W-284 Total Fluence:

20(r1 Ui I

t I + 4- 4 __________ _________

1. t +/- 4 4 UL/U II []

0 4 L Q) 5G~~-__ _ _ _ _ _ _ _ _

1/1 _ _ _ _ _ _ _ _ _ _ _ _ _ _

U

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: WY-284 Material: WELD Ori Heat #: 90136,LINDE 0091,LO03999 Charpy V-Notch Da ta Temperature Input Lateral Expansion Computed LK Differential

-50 4 3.06 .93

-10 8 11.16 -3.16 0 20 1556 4.43 10 13 2127 -827 15 25 24.61 38 25 26 32.08 -6.08 30 46 36.09 9.9 40 47 4422 2.77 100 63 73.06 -10.06

-'* Data continued on next. page **

B-28

CAPSULE W-284 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091,LOT3999 Orientation:

Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 150 75 76.77 -1.77 200 83 7723 5.76 250 81 7729 3.7 SUM of RESIDUALS = -1.46 B-29

CAPSULE W-284 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09.19-.18 on 05-08-2000 Page 1 Coefficients of Curve I A= 50 B =50 C =6122 TO =39.53 Equation is. Shear. = A + B * [ tanh((T - TO)/C) ]

Temperature at 50x Shear 39.5 Material: WELD Heat Number 9016LINDE 0091,LOT3999 Orientation:

Capsule: W-284 Total Fluence:

C.)

C)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap. W-284 Material: WELD Ori: Heat #: 90136,LINDE 0091,LOT3999 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential

-50 10 5.09 4.9

-10 15 16.54 -1.54 0 20 21.56 -1.56 10 20 27.59 -759 15 30 3097 -.97 25 40 38.35 1.64 30 50 4227 7.72 40 50 50.38 -.38 100 85 87.81 -2.81

-** Data continued on next page **

B-30

CAPSULE W-284 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091,LOT3999 Orientation:

Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 150 95 97.36 -2.36 200 100 99.47 .52 250 100 99B9 J SUM of RESIDUALS = -2.33 B-31

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 0921.59 on 05-08-2000 Page 1 Coefficients of Curve 1 A= 47.59 B= 45.4 C= 107.77 TO = 3921 Equation is CVN A+ B

• I tanh((T - TO)/C)

Upper Shelf Energy: 93 Fixed Temp. at 30 ft-lbs -4.8 Temp. at 50 ft-lbs 44.9 Lower Shelf Energy: 2.19 Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence 300 CUD 250 I

20fF 1500 100_

z 0/[

U D 0 E bo C

-- C3

- - - -4 -

0

-300 -200 -100 0 100 200 300 400 500 600 Temperature in D egrees F Data Set(s) Plotted Plant SLI Cap: W-284 Material: HEAT AFFD ZONE Ori- Heat #: C--8-2 SIDE OF WELD Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-40 9 1917 -1017

-5 21 29.95 --8.95 10 31 3558 -4.58 20 55 39.59 15.4 30 41 43.72 -2.72 40 62 47.93 14.06 60 36 5625 -2025 72 85 61 23.99 100 73 70.79 22

• • Data continued on next page "*

B-32

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 135 57 79B6 -286 200 79 88.62 -9.62 250 107 9121 15.78 SUM of RESIDUALS = -7.73 B-33

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09-26:34 on 05-08-2000 Page 1 Coefficients of Curve 1 A = 33.03 B = 32.03 C = 110.05 TO = 3524 Equation is LE. = A + B

• tanh((T - TO)/C) I Upper Shelf LE: 65.06 Temperature at LE. 35: 42 Lower Shelf LE.: 1 Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence:

200- - '--

U),

150-10 0

0 0 0

0 U)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: W-284 Material: HEAT AFFD ZONE Ori: Heat j C-8-2 SIDE OF WELD Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE. Differential

-40 6 14 -8

-5 20 21.81 -l81 10 20 25.81 -5.81 20 37 28.62 837 30 35 31.5 3.49 40 40 34.41 558 60 30 40.11 -10.11 72 57 43.34 13.65 100 49 49.96 --.96

• - Data continued on next page *14*

B-34

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 135 41 56.07 -15.07 200 59 62 -3 250 74 63.79 102 SUM of RESIDUALS = -3.48 B-35

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at O929.17 on 05-08-2000 Page 1 Coefficients of Curve 1 F A= 50 B= 50 C= 137.96 TO= 29.06 Equation is Shear' = A + B

• I tanh((T - TO)/C) ]

Temperature at 50/. Shear 29 Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence:

Cz V..)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in D agrees F Data Set(s) Plotted Plant: SLI Cap- If-284 Material: HEAT AFFD ZONE Ori Heat #: C-8-2 SIDE OF WELD Charpy V-Notch Data Temperature Input Percent Shear Compute dPercent Shear Differential

-40 20 26.87 -6.87

-5 40 37.89 2.1 10 30 43.13 -13.13 20 50 46.72 327 30 60 50.33 9.66 40 65 53.95 11.04 60 40 61.02 -21.02 72 90 65.07 24.92 100 75 73.65 1.34

• • • • Data continued on next page ****

B-36

CAPSULE W-284 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF WELD Orientation:

Capsule: W-284 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 135 60 8228 -2228 200 95 9225 2.74 250 100 96.09 3.9 SUM of RESIDUALS =-4.32 B-37

CAPSULE W-104 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12-3915 on 05-05-2000 Page I Coefficients of Curve 1 A=59.09 C = 8. TO = 136.81 Equation is: CVN = A + B

• tanh((T - TO)/C)

Upper Shelf Energy: 116 Fixed Temp. at 30 ft-lbs 87.1 Temp. at 50 ft-lbs-. 122.6 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: LT Capsule: W-104 Total Fluence:

V) 250 4

200

.,. 150 1007 O

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-104 Material: PLATE SA533BI Ori: LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential 25 13 10.5 2.49 60 24 19.1 4.89 60 28 19.1 8.89 60 15 191 -4.1 100 21 3659 -15.59 100 39 36.59 2,4 125 53 51.5 IA9 150 75 67.56 7A3 200 B4 94J3 -10J3

-Data continued on next page B-38

CAPSULE W-104 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number C-8-2 Orientat ion: LT Capsule: W-104 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CYN Energy Differential 250 113 107.92 5.07 280 121 111.76 923 300 114 11327 .72 SUM of RESIDUALS = 12.8 B-39

CAPSULE W-104 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1244:03 on 05-05-2000 Page 1 Coefficients of Curve I A = 49.46 B = 48.46 C = 133.46 TO = 149.7 Equation is: L = A + B

• I tanh((T - TO)/C) I Upper Shelf L1, 97.92 Temperature at LE. 35: 108.6 Lower Shelf LE: 1 Fixed Material: PLAT E SA533B1 Heat Number. C-8-2 )rientation: LT Capsule: W-104 Total Fluence:

r-.

CI)

°P-4

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLi Cap.: Y-104 Material: PLATE SA533B1 Ori- LT Heat #: C-8-2 Charpy V-Notch Da ta Input Lateral Expansion Computed LE Differential Temperature 12 1395 5 25 21.04 1.95 60 23 3.95 25 21.04 60 21.04 -4.04 60 17 -82 24 322 100 322 2.79 100 35 3.4 44 4059 125 49.57 4A2 150 54 63 66.9 -3.9 200

• • • Data continued on next page ****

B-40

CAPSULE W-104 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: LT Capsule: W-104 Total Fluenc Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed L. Differential 250 81 8028 .71 280 84 85.88 -1.88 300 90 88.7 129 SUM of RESIDUALS =-1.44 B-41

CAPSULE W-104 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12.47.:10 on 05--05-2000 Page 1 Coefficients of Curve 1 A = 50 B = 50 C = 69.37 TO = 125.97 Equation is: Shear. = A + B

• tanh((T - TO)/C) I Temperature at 50z Shear 125.9 Material: PLATE SA533BI Heat Number. C-8-2 Orientation: LT Capsule- W-104 Total Fluence:

o')

0 0)

-300 -200 -100 0 100 200 300 400 5w0 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-104 Material: PLATE SAS33B1 Oni- LT Heat /f C-8-2 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential 25 10 516 4.83 60 15 12.98 2.01 60 15 12,98 ao.0 60 15 12.98 am01 20 32J -121 100 32.1 100 35 2.89 125 45 4929 -429 150 80 66.65 13i34 200 80 89.41 -9AI

• Data continued on next page

• B-42

CAPSULE W-104 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: LT Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 250 100 9727 2.72 280 100 98.3 1.16 300 100 99.34 .65 SUM of RESIDUALS = 5.84 B-43

CAPSULE W-104 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12:57:36 on 05-05-2000 Page 1 Coefficients of Curve .1 A = 55.09 B = 52.9 C = 72.61 TO = 46.87 Equation is: CVN = A + B * [ tanh((T - TO)/C) I Upper Shelf Energy: 108 Fixed Temp. at 30 ft-lbs: 9.4 Temp. at 50 ft-lbs:. 39.8 Lower Shelf Energy: 2.19 Fixed Material: WELD Heat Number. 90136,LINDE 0091,LOT 3999 Orientation:

Capsule: W-104 Total Fluence:

CI) 10 za

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: W-104 Material: WELD Ori- Heat #: 90136,LINDE 0091,LOT 3999 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-25 26 15.04 10.95 0 9 25.01 -16.01 20 48 36.36 11.63 20 62 36.36 25.63 20 25 36.36 -11,36 40 45 50.1 -5.1 60 45 64.55 -19.55 60 58 64.55 -6.55 100 109 88.11 20.88 SData continued on next page

CAPSULE W-104 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091,LOT 3999 Orientation:

Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 150 99 102.16 -3.16 180 112 105.36 6.63 200 113 106.46 6.53 SIUM of RESIDUALS = 20.51 B-45

CAPSULE W-104 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12:5921 on 05-05-2000 Page 1 Coefficients of Curve I A= 44.06 B = 43.06 C = 80.11 TO = 40.31 Equation is: LE. = A + B * [ tanh((T - TO)/C) I Upper Shelf LE- 87.13 Temperature at LE. 35: 231 Lower Shelf L.E 1 Fixed Material: WELD Heat Number 90136,LINDE 0091,LOT 3999 Orientation:

Capsule: W-104 Total Fluence:

200 CI) 150 100-

-4 5ff -

0 0 IIIII I I 100 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap- W-104 Material: WELD Ori: Heat #: 90136,L INDE O091JD)T 3999 Charpy V-Notch Data Temperatur *e Input Lateral Expansion Computed LE. Differential

-25 21 151 5.89 0 11 24.05 -13.05 20 40 33.37 6.62 20 48 33.37 14.62 29 33.37 -4.37 20 40 41 43.89 -2.B9 60 45 54.44 -9.44 60 50 54.44 -4.44 100 84 7129 12.7

-*Data continued on next page B-46

CAPSULE W-104 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091,LOT 3999 Orientation:

Capsule: W-104 Total Fluence Charpy V-Notch Data (Continued)

Computed LR Differential Temperature Input Lateral Expansion -1.89 150 80 81.89 -.57 180 84 84.57 -2.56 200 83 85.56 SUM of RESIDUALS = .61 B-47

CAPSULE W-104 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13.0-.35 on 05-05-2000 Page 1 Coefficients of Curve I A= 50 B= 50 C= 55.4 TO= 30.93 Equation is: Shearz = A + B

• I tanh((T - TO)/C) ]

Temperature at 50z; Shear 30.9 Material: WELD Heat Number- 901361INDE 0091,LOT 3999 Orientation:

Capsule: W-104 Total Fluence:

C,;

Y) 0.)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: W-104 Material: WELD Ori. Heat #: 90136,LINDE 0091,LOT 3999 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential

-25 15 11.72 327 0 15 24.66 -9.66 20 45 4025 4.74 20 60 4025 19.74 20 30 4025 -1025 40 50 58.1 -8.1 60 55 74.05 -19.05 60 90 74.05 15.94 100 100 9236 7.63

• Data continued on next page ""

B-48

CAPSULE W-104 (WELD)

Page 2 Material: WELI D Heat Number. 90136,LNDE 009LLOT 3999 Orientation:

Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 150 100 98.65 1.34 180 100 99.54 .45 200 100 99.77 22 SUMof RESIDUALS = 628 B-49

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:11:47 on 05-05-2000 Page 1 Coefficients of Curve I A = 53.09 B= 50.9 C= 109.09 TO = 33.54 i

Equation is CVN = A + B

• I tanh((T - TO)/C) I Upper Shelf Energy: 104 Fixed Temp. at 30 ft-lbs: -19.8 Temp. at 50 ft-lbs: 26.8 Lower Shelf Energy: 2.19 Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence:

309 Cf 250 S 20-7 q 150 a.)

z00-

-300 -200 -100 0 100 200 300 400 5W0 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap.: W-04 Material: HEAT AFFD ZONE Ori: Heat #: C--8-2 SIDE OF WELD Charpy V-Notch Data Temper,ature Input CVN Energy Computed CVN Energy Differential

-40 39 23.18 15.81

-25 29 2813 .86 0 32 37.92 -592 0 33 37.92 -4.92 50 37 60.72 -23.72 50 83 60.72 2227 100 67 80.76 -13.76 150 103 9323 9.76 150 118 9323 24.76

• ' Data continued on next page

• B-50

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 175 83 96.91 -13.91 250 115 10.11i 12.88 275 100 102.79 -2.79 SiUM of RESIDUALS = 2131 B-51

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13z13:26 on t5-05-2000 Page I Coefficients of Curve 1 A

A: 4155 B = 40.55 C = 149.5 TO = 43.12 Equation is: LE. A + B

• I tanh((T - TO)/C) I Upper Shelf LE& 82.11 Temperature at LE. 35: 18.7 Lower Shelf LE: I Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence o-P-4 "04 Z)

Z*

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Material: HEAT AFFD ZONE Ori- Heat #: C--B-2 SIDE OF WELD Plant SLI Cap: W-104 Charpy V-Notch Data Input Lateral Expansion Computed IK Differential Temperature 26 21.07 4.92

-40 2425 1.74

-25 26 26 30.17 -4.17 0 30.17 -3.17 0 27 31 43.41 -12AI 50 16.58 50 60 43A1 47 5628 -92.8 100 6.55 150 73 66.44 81 66.44 14.55 150

• Data continued on next page ****

B-52

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Beat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Computed LE. Differential Temperature Input Lateral Expansion -1524 175 55 7024 6.68 250 84 7731 -5.62 275 73 78.62 ALS = 1.12 SUM of lEli)U, B-53

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:14:46 on 05-05-2000 Page 1 Coefficients of Curve I A= 50 S B= 50 C= 82.77 TO = 14.53 Equation is: Shear/ = A + B * [ tanh((T - T0)/C) ]

Temperature at 50,. Shear. 14.5 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence:

0) w3 C)

C©

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-104 Material: HEAT AFFD ZONE Ori: Heat #: C-8-2 SIDE OF WELD Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential

-40 30 2112 8.87

-25 25 27.78 -2,78 0 40 41.31 -1.31 0 40 4131 -131 50 40 702 -302 50 95 702 24.79 100 95 88.74 625 150 100 96.34 3.65 150 100 96.34 3.65

• • ' Data continued on next page **-

B-54

CAPSULE W-104 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Input Percent Shear Computed Percent Shear Differential Temperature 175 100 97.97 a02 100 99.66 .33 250 .18 275 100 99.81 SUl Mof RESIDUALS = 14.16 B-55

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1325:46 on 05-05-2000 Page 1 Coefficients of Curve I A= 44.59 S B= 42.4 C= 8224 TO = 187.96 Equation is: CVN = A + B [ tanh((T - TO)/C) I Upper Shelf Energy: 87 Fixed Temp. at 30 ft-lbs 158.4 Temp. at 50 ft-lbs. 1985 Lower Shelf Energy: 219 Fixed Material: SRM SA533B1 Heat Number. HSST PLATE OIMY Orientation: LT Capsule: W-104 Total Fluence:

0 z

U

-300 -200 -100 0 100 200 300 400 5W0 600 Temperature in Degrees F Data Set(s) PIotted Plant SLI Cap- W-104 Material: SRM SA5331 31 Ori. LT Heat #: HSST PLATE OIMY Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential 25 6 3.78 221 70 12 6.75 524 100 12 1113 .86 120 20 15.82 4.17 150 29 26.3 2.69 150 34 26.3 7.69 180 30 40.5 -10.5 200 45 50.75 -5.75 225 51 62.49 -IIA9 1*Data continued on next page **

B-56

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

Page 2 Material: SRM SA533B1 Heat Number. HSST PLATE OIMY Ori entation: LT Capsule: W-104 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 250 85 71.63 13.36 275 86 77.88 8.11 300 91 81.78 921 SIUM of RESIDUALS = 25.82 B-57

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:30:14 on 05-05-2000 Page I Coefficients of Curve I A 51.64 B= 50.64 C= 120.84 TO = 224.53 Equation is: LE. = A + B * [ tanh((T - TO)/C) I Upper Shelf LE- 10229 Temperature at LE 35: 1832 Lower Shelf LE- I Fixed Material: SRM SA533]BI Heat Number. HSST PLATE OIMY Orientation: LT Capsule: W-104 Total Fluence:

P P P P P P 20{1) 9i)

-P-4 1507 r\

4 -4 r4 11I) 0-)

5( o 0

/0

~- - 00 l

U 1

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap-- W-104 Material: SRM SA533BI Oni- LT Heat #: HSST PLATE O1MY Charpy V-Notch Data Temperatu re Input Lateral Expansion Computed LE. Differential 25 9 4.59 4A 70 7 828 -128 100 14 12.44 1.55 120 18 1625 1.74 150 23 23.64 -.84 150 28 23.84 415 180 29 33.78 -4.78 200 36 41.5 -5.5 225 48 51.84 -3.84

-*Data continued on next page .rn B-58

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

Page 2 Material: SRM SA533B1 Heat Number. HSqT PLATE O1MY Orientation: LT Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperatuire Input Lateral Expansion Computed LE ifferential 0D 250 75 62.16 12.B3 275 71 71.65 -.65 300 76 79.71 -3.71 SUM of RESIDUALS =4.05 B-59

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:33'22 on 05-05-2000 Page 1 Coefficients of Curve I A =50 B= 50 C= 58.66 TO = 188.33 Equation is: Shear/ = A + B

• I tanh((T - TO)/C) ]

Temperature at 50,. Shear 188.3 Material: SRM SA533B1 Heat Number. HSST PLATE OIMY Orientation: LT Capsule: WY-104 Total Fluence:

03 40)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant- SLI Cap- W-104 Material: SRM SA533BI Ori- LT Heat #: HSS PLATE 0IMY Charpy V-Notch Data Temperaature Input Percent Shear Computed Percent Shear Differential 25 5 .38 4.61 70 10 1.73 826 100 10 4.69 53 120 15 8.86 613 150 20 2129 -129 150 30 2129 8.7 180 40 42.94 -2.94 200 40 59.81 -19.1 225 90 77.72 1227

• Data continued on next page "

B-60

CAPSULE W-104 (STANDARD REFERENCE MATERIAL)

Page 2 Material: SRM SA533B1 Heat Number. HSST PLATE 0lMY Orientation: LT Capsule: W-104 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 250 100 8911 10.88 275 100 95.04 4.95 300 100 97.82 2.17 SUM of RESIDUALS = 3925 B-61

CAPSULE W-97 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09:03:36 on 05-05-2000 Page 1 Coefficients of Curve I A=54.59 B =52.4 C= 92a44 TO = 123.04 Equation is CVN = A + B

• tanh((T - TO)/C) ]

Upper Shelf Energy: 107 Fixed Temp. at 30 ft-lbs 75.9 Temp. at 50 ft-lbs 114.9 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533B1 Heat Number- C-8-2 Orientation: LT Capsule: W-97 Total Fluence:

30M I Y) 25O 200 1507 z

U 500 5fFj 0

U'

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted PlanL SLI Cap.: W-7 Material: PLATE SA533BI Ori- LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential 0 6 9.03 -3.03 40 23 17.1 5.89 60 25.5 2353 1.96 60 25 2353 1.46 80 33 31.82 1.17 80 32.5 31.82 .67 120 44 5287 -8.87 160 69 74A9 -5.49 200 107.5 90.32 1717

-Data continued on next page ***

B-62

CAPSULE W-97 (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number C-8-2 Orientation: LT Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 250 110 100.68 9.31 250 87 100.68 -13.68 300 102 104.76 -Z76 SUM of RESIDUALS = 3.8 B-63

CAPSULE W-97 (LONGITUDINAL)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 08.57-59 on 05-05-2000 Page 1 Coefficients of Curve 1 A 40.7 B= 39.7 C =89.99 TO=12421 Equation is LK = A + B * [ tanh((T - T0)/C) I Upper Shelf LE, 80.41 Temperature at LE. 35: 111.1 LOwer Shelf LE. I Fixed Material: PLAT F SA533BI Heat Number. C-8-2 C)rientation: LT Capsule: W-97 Total Fluence:

f -! - - I Z!'JU So 150

- 4 4 + I -

1007 C) 500 oj 0

Oj I I

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant- SLI Cap: W-97 Material: PLATE SA533BI Ori: LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE Differential 0 1 5.T2 -4.72 40 16 11.59 4A 60 17 16.37 .62 60 20 16.37 3.62 80 22 22.62 -.62 80 23 22.62 .37 120 35 38.84 -384 160 52 55.71 -3.71 200 77 67A 9.01 1* Data continued on next page ....

B-64

CAPSULE W-97 (LONGITUDINAL)

Page 2 Material: PLATE SA533BI Heat Number. C-8-2 Orieintation: LT Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 250 85 75.84 9.15 66 75.84 -9.84 250 300 76 78.84 -2.84 SUM of RESIDUALS =1.61 B-65

CAPSULE W-97 (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 08.59.39 on 05-05-2000 Page 1 Coefficients of Curve 1 A= 50 S B= 50 C= 64.84 T0 = 153.58 Equation is: Shear/ = A + B

• I tanh((T - T0)/C) ]

Temperature at 50z Shear:. 153.5 Material: PUATE SA533B1 Heat Number. C-8-2 Ori entation: LT Capsule: W-97 Total Fluence:

0 03 0

0

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: W-97 Material: PLATE SA533B1 Ori: LT Heat #: C-8-2 Charpy V-Notch Data Tempera ture Input Percent Shear Computed Percent Shear Differential 0 0 .86 -.86 40 0 2.92 -Z_92 60 10 528 4.71 60 10 528 4.71 80 10 9.36 .63 80 10 9.36 .63 120 30 2619 3.8 160 40 54.93 -1493 200 100 80.71 1928

-- Data continued on next page **

B-66

CAPSULE W-97 (LONGITUDINAL)

Page 2 Material PLATE SA533BI Heat Number. C-8-2 Orientatio n: LT Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 250 100 9513 4.86 250 80 9513 -1513 300 100 98.91 1.08 Su* Aof RESIDUALS = 5.86 B-67

CAPSULE W-97 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09:07:00 on 05-05-2000 Page 1 Coefficients of Curve I A= 40.09 S B= 37.9 Cr 109.59 TO = 109.14 Equation is: CVN = A + B [ tanh((T - TO)/C) ]

Upper Shelf Energy: 78 Fixed Temp. at 30 ft-lbs: 792 Temp. at 50 ft-lbs. 138.4 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533BI Heat Number. C-8-2 Orientation: TL Capsule: W-97 Total Fluence:

300 I) 250F 201O T

150 br2 0

100 z>

50 50F

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SI Cap: W-97 Material: PLATE SA533BI Oni: TL Heat #: C-6-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential 0 5.5 11.3 -5.8 22-5 18.92 3.57 40 27 24.16 2.83 60 -4.66 60 195 2416 35 3025 4.74 80 424 80 34.5 3025 38 43.84 -5.84 120 -2,02 160 54.5 56.52 52 56.52 -4.52 160

• • Data continued on next page *-*

B-68

CAPSULE W-97 (TRANSVERSE)

Page 2 Material: PLATE SA533B1 Heat Number- C-8-2 Orientation: TL Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 210 76 67.61 8.38 250 77,5 72.61 4.88 250 67 72.61 -5.61 SUM of RESIDUALS = 2 B-69

CAPSULE W-97 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09:08:16 on 05-05-2000 Page 1 Coefficients of Curve I A = 33.99 B = 3299 C = 11616 TO = 121.87 Equation is: kE = A + B [ tanh((T - TO)/C) I Upper Shelf LkE 66.98 Temperature at LE 35: 125.4 Lower Shelf L&. 1 Fixed Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: TL Capsule: W-97 Total Fluence-2O0 C13 150 100

4) 0 0

8

- ;t __________

U

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap: W-97 Material: PLATE SA533BI On- TL Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed L.E Differential 0 0 82 -82 40 13 13.95 -.95 60 19 17.91 1.08 60 17 17.91 -.91 80 26 3.41 80 29 2268 6.41 120 32 33.45 -1.45 160 44 44A4 -.44 160 40 44A4 -4.44 SData continued on next page 'ý B-70

CAPSULE W-97 (TRANSVERSE)

Page 2 Material: PLATE SA533B1 Heat Number: C-8-2 Orie ntation: TL Capsule: W-97 Total Fluence Charpy V-Notch Data (Continued)

Input Lateral Expansion Computed LE. Differential Temperature .88 210 56 55.11 5.56 250 66 60.43 -4.43 250 56 60.43

• V SUM of RESIDUALS = -3.5 B-71

CAPSULE W-97 (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09H.39 on 05-05-2000 Page 1 Coefficients of Curve 1 A =50 B =50 C= 8422 TO = 174.84 Equation is: Sheari = A + B [ tanh((T - TO)/C) ]

Temperature at 50v Shear. 174.8 Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: TL Capsule: W-97 Total Fluence 0

C/I 0

40 0

Cm

-300 -200 -100 0 100 2o0 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-97 Material: PLATE SA533B1 Ori- TL Heat #: C-8-2 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential 0 0 1.54 -1.54 40 0 3.9 -3.9 60 10 6.13 3.86 60 10 6.13 3.86 80 10 9.51 A8 80 20 9.51 10.48 120 20 2137 -1.37 160 40 4127 -127 160 30 4127 -1127

-Data continued on next page *1 B-72

CAPSULE W-97 (TRANSVERSE)

Page 2 Material1:PLATE SA533BI Heat Number C-8-2 Orientati on: TL Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 210 80 69.73 1026 250 100 85.62 14.37 250 70 85.62 -15.62 SUM of RESIDUALS = 8.3 B-73

CAPSULE W-97 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09:13:35 on 05-05-2000 Page 1 Coefficients of Curve 1 A= 51.09 S B= 48.9 C= 64.59 TO = 4418 Equation is: CVN = A + B* [ tanh((T - TO)/C) I Upper Shelf Energy: 100 Fixed Temp. at 30 ft-lbs 14.3 Temp. at 50 ft-lbs: 42.7 Lower Shelf Energy: 2.19 Fixed Material: WELD Heat Number. 90136,LINDE 0091,UT3999 Orientation:

Capsule: W-97 Total Fluence:

ý-q 150 100-04

-30 0 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap: WY-97 Material: WELD Ori: Heat . 90136,UL4DE 0091JI03999 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-40 65 892 -2.42 0 15 2Z04 -7.04 20 55 33.6 21.39 40 51 47.93 3.06 40 28.5 47.93 -19.43 60 62.5 62Z84 -.34 60 61 6K84 -1.84 80 82 75.73 626 120 89 9L46 -2.46

-rnData continued on next page

• B-74

CAPSULE W-97 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091,LOT3999 Orientation:

Capsule: W-97 Total Fluence Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 160 1025 97.36 513 200 102.5 9922 327 200 95 9922 -422 StIMof RESIDUALS = 136 B-75

CAPSULE W-97 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09.15"21 on 05-05-2000 Page 1 Coefficients of Curve 1 A= 38.81 B= 37.81 C= 50.45 TO = 45.93 Equation is: LE. = A + B

• I tanh((T - T0)/C) I Upper Shelf LE- 76.62 Temperature at LE. 35: 40.8 Lower Shelf LE- 1 Fixed Material: WELD Heat Number. 90136,LINDE 0091,L0T3999 Orientation:

Capsule: W-97 Total Fluence:

20YO 150 100O U) 00_

/0 f i =:& i -

U0

-300 -200 -100 0 100 200 300 400 500 600 Temperature in ID(egrees F Data Set(s) Plotted Plant: SL1 Cap: W-97 Material: WELD Ori. Heat #: 90136LINDE 0091,LOT3999 Charpy V-Notch Da ta Temperature Input Lateral Expansion Computed LE. Differential

-40 0 3.42 -3.42 11 11.53 -.53 0

20 28 20.92 7.07 40 37 34.38 34.38 -11.38 40 23 50 49.08 .91 60 1.91 60 51 49.08 80 63 61.05 1.94 70 72-81 -2B1 120

• • • • Data continued on next page '*

B-76

CAPSULE W-97 (WELD)

Page 2 Material: WELD Heat Number. 90136,LINDE 0091OTL3999 Orientation:

Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 160 81 75.81 5.18 200 77 76.45 .54 200 72 76.45 -4.45 SUM of RESIDUALS = -2.41 B-77

CAPSULE W-97 (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 09-16:44 on 05-05-2000 Page 1 Coefficients of Curve I SA = 50 AzOB0C54.88 B = 50 C=548TO=6. TO 61.4 Equation is: Sheari = A + B*tanh((T - TO)/C)]

Temperature at 50%y Shear 61.4 Material: WELD Heat Number. 90136,LINDE 0091,LOT3999 Orientation:

Capsule: W-97 Total Fluence:

UtJ 60 0

¢..)

S 4O 20 0

-3c )0 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SL1 Cap- W-97 Material: WELD Ori: Heat #: 90136,LINDE 0091,L0r3999 Charpy V-Notch Data Temperature Input Percent Shear Comput ed Percent Shear Differential

-40 0 2.42 -2.42 0 10 9.64 .35 20 30 1811 1188 40 20 3143 -1IA3 40 20 31.43 -IIA3 60 50 48.71 128 60 60 48.71 1128 80 70 66.31 3.68 120 80 89.42 -9.42

`~ Data continued on next page m*

B-78

CAPSULE W-97 (WELD)

Page 2 Material: WELfl Heat Number. 90136LINDE 0091,LOT3999 )rientation:

Capsule. W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Input Percent Shear Computed Percent Shear Differential Temperature 2.67 160 100 97.32 99.36 .63 200 100 .63 200 100 99.36 Su: M of RESIDUALS = -227 B-79

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1223:10 on 05-05-2000 Page 1 Coefficients of Curve I A= 58.09 B= 55.9 C= 161.41 TO= 29.06 Equation is: CVN = A + B

• I tanh((T - TO)/C} I Upper Shelf Energy: 114 Fixed Temp. at 30 ft-lbs: -60.1 Temp. at 50 ft-lbs: 5.5 Lower Shelf Energy: 2.19 Fixed Material HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

300 co 250 S 200-z

-300 -200 -100 0 100 200 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap- W-97 Material: HEAT AFFD ZONE Ori-L Heat #: C-8-2 SIDE OF WELD Charpy V-Notch Data Tempera ture Input CVN Energy Computed CVN Energy Differential

-40 25 35.54 -1054

-20 41 41.61 -.61

-20 385 41.61 -311 0 61 48J4 1285 40 72.5 6188 10.61 40 68 61B8 6.11 B0 48 75.17 -2717 100 90 8119 8.8 120 94 86.63 7.36

• "* Data continued on next page

• B-80

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 160 72.5 95.56 -23.06 210 1185 10326 1523 210 109 10326 5.73 SIUM of RESIDUALS = 222 B-81

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

CYGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1228:30 on 05-05-2000 Page 1 Coefficients of Curve 1 A =40.59 B= 39.59 C =179.51 TO= 3328 Equation is: LE. A+B

• I tanh((T - T0)/C) I Upper Shelf LEL 80.18 Temperature at L.R 35: 7.7 Lower Shelf LE- 1 Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

cn SP-0 100 200 300 400 500 600

-300 -200 -100 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- W-97 Material: HEAT AFFD ZONE Ori: Heat #: C-8-2 SIDE OF WELD Charpy V-Notch Data Computed LE. Differential Temper.ature Input Lateral Expansion

-40 15 2527 -1027 9.82 39 29.17

-20 2917 -417

-20 25 4.66 38 33.33 0 42.07 5.92 40 48 -.07 42 42.07 40 50.67 -16.67 80 34 11.33 66 54.66 100 58.35 7.64 120 66

• • • Data continued on next page **

B-82

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE. Differential 160 49 64.66 -15.66 210 72 70.48 1.51 210 76 70.48 5.51 SUM of RESIDUALS = -.43 B-83

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 12:31'20 on 05-05-2000 Page 1 Coefficients of Curve 1 A = 50 B = 50 C= 145.45 TO = 40.31 Equation is: Shear/ = A + B tanh((T - TOV/C) ]

Temperature at 50z. Shear. 40.3 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

---

- I_- ig 100 T f 80 0 0

/

4 40 1L  !

0 I _ __ _ I- I- --- - i I I 20 E0 U

400 500 600

-300 -200 -100 0 100 200 300 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap: W-97 Material: HEAT AFFD ZONE Ori: Heat #: C-8-2 SIDE OF WELD Charpy V-Notch Data Input Percent Shear Computed Percent Shear Differential Temperature 24.89 -14.89 9.62

-40 10 3037

-20 40 -.37 30 30.37

-20 36.48 3.51 0 40 20.1 70 49.89 40 49.89 .1 40 50 -33.31 30 63.31 80 69.43 10.56 100 80 5.05 80 74.94 120

- Data continued on next page `

B-84

CAPSULE W-97 (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF WELD Orientation:

Capsule: W-97 Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 160 70 83.83 -13.83 210 100 9115 8.84 210 100 9115 8.84 SUM of RESIDUALS = 422 B-85

UNIRRADIATED (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:5251 on 05-04-2000 Page I Coefficients of Curve I A = 52.59 B= 50.4 C= 71.08 TO = 49.68 Equation is: CVN = A + B 1 tanh((T - TO)/C) ]

Upper Shelf Energy: 103 Fixed Temp. at 30 ft-lbs 15.3 Temp. at 50 ft-lbs 46 Lower Shelf Energy: 2.9 Fixed Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: TL Capsule: UNIRR Total Fluence:

300 cn 25O-0 7

200 150 0

100- 0 0 z>. 0 0

50- 0

-300 -200 -100 0 100 200 3W0 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: PLATE SA533BI Oni: TL Heat #: C--8-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-40 9 9.68 -.68 0 13.5 22.17 -8.67 0 11.5 22.17 -10.67 20 43.5 32.69 10.8 20 335 32:69 .8 40 58.5 45.77 12.72 40 48.5 45.77 2.72 70 61 66.62 -5.62 70 44.5 66.62 -22,12

-*Data continued on next page B-86

UNIRRADIATED (TRANSVERSE)

Page 2 Material: PLATE SA533B1 Heat Number C-8-2 Orientat ion: TL Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 92.5 72.87 19.62 80 -3.37 80 69.5 72.87 76 72.87 3.12 80 424 120 95 90.75 78.5 90.75 -1225 120 232 160 101 98.67 101 98.67 2-32 160 4.09 210 106 101.9 101.9 9 210 99 S$UM of RESIDUALS =-3.49 B-87

UNIRRADIATED (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13.54:09 on 05-04-2000 Page 1 Coefficients of Curve 1 A= 36.83 B=35.83 C= 64.39 T = 4828 Equation is LE. = A + B* [ tanh((T - TO)/C) ]

Upper Shelf L& 72.66 Temperature at LE. 35: 44.9 Lower Shelf LE: I Fixed Material: PLATE SA533B1 Heat Number C--8-2 Orientation: TL Capsule: UNIRR Total Fluence 4c)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SL1 Cap-- UNIRR Material: PLATE SA533B1 Ori: TL Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE. Differential

-40 2 5.33 -3.33 0 8 14.07 -6.07 0 9 14.07 -5.07 20 29 22.03 6.96 20 22 22.03 -.03 40 40 3225 7.74 40 34 3225 1.74 70 46 48.48 -2.48 70 33 48.48 -15.48

• Data continued on next page "**

B-88

UNIRRADIATED (TRANSVERSE)

Page 2 Material: PLATE SA533BI Heat Number. C-8-2 Orie atation: TL Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Input Lateral Expansion Computed L. Differential Temperature 12.81 80 66 53.18 -4.18 80 49 53.18 2-81 80 56 53.18 2,3 120 68 65.69 -6.69 120 59 65.69 1.49 160 72 70.5 -.5 160 70 70.5 -19 210 72 72.19 1.8 210 74 72.19 SUM of RESIDUALS = -6.36 B-89

UNIRRADIATED (TRANSVERSE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:3824 on 05-10-2000 Page 1 Coefficients of Curve I A = 50 B = 50 C = 6625 TO = 76.4 Equation is:. Shear/. = A + B * [ tanh((T - TO)/C) ]

Temperature at 50;. Shear: 76.4 Material: PLATE SA533BI Heat Number: C-8-2 Orientation: TL Capsule: UNIRR Total Fluence L

Ct 0

0D 0

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLW Cap: UNIRR Material: PLATE SA533BI OriL TL Heat #: C-8--2 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential

-40 0 2B9 -2.89 0 10 9.05 .94 0 10 9.05 .94 20 10 15.41 -5.41 20 10 15.41 -5A1 40 20 2499 -4.99 40 20 24.99 -4.99 70 40 4518 -518 70 30 4518 -15.18

""Data continued on next page ý'

B-90

UNIRRADIATED (TRANSVERSE)

Page 2 Material: PLATE SA533B1 Heat Number. C-8-2 Orientati on: TL Capsule: UNIRR Total Fluence Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 80 80 52.7 2729 80 60 52.7 729 80 70 52.7 1729 120 70 78.85 -8.5 120 60 78.85 -18.5 160 90 92.57 -2.57 160 90 92.57 -2.57 210 100 9825 1.74 210 100 9825 1.74 SUMof RESIDUALS -19.67 B-91

UNIRRADIATED (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13"24-55 on 05-04-2000 Page 1 Coefficients of Curve I A= 70.59 S B= 68.4 C= 74.85 TO= 58.59 Equation is CVN = A + B * [ tanh((T - TO)/C) I Upper Shelf Energy: 139 Fixed Temp. at 30 ft-lbs 7.4 Temp. at 50 ft-lbs: 35.3 Lower Shelf Energy: 2.19 Fixed Material: PLATE SA533B1 Heat Number. C-8--2 Orientation: LT Capsule: UNIRR Total Fluence:

C) z

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: PLATE SA533BI Ori: LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-40 13 1136 1.63

-40 11 11.36 -.36

-20 17.12 Z87 0 30 25.84 4J5 0 30 25.84 415 40 61 53.95 7.04 40 35 53.95 -18.95 40 50 53.95 -395 70 89 80.94 8.05

• • Data continued on next page I B-92

UNIRRADIATED (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number. C-8-2 Orientation: LT Capsule: UNIRR Total Fluencm Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 70 75 80.94 -5.94 70 85 80.94 4.05 80 97 89.64 7.35 80 89 89.64 -.64 120 116.5 116.78 -28 120 105.5 116.78 -1128 160 142 130.46 11.53 160 130 130.46 -.46 210 145 136.64 8.35 SUM of RESIDUALS = 17.34 B-93

UNIRRADIATED (LONGITUDINAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 13:46:58 on 05-04-2000 Page 1 Coefficients of Curve I A= 4423 S B= 4323 Cr 6498 TO = 49.68 Equation is: LE. = A + B

• I tanh((T - T0)/C) I Upper Shelf LE- 87.47 Temperature at LE. 35: 35.5 Lower Shelf LE- 1 Fixed Material: PLAT]E SA533B1 Heat Number. C-8-2 C)rientation: LT Capsule: UNIRR Total Fluence:

c)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: PLATE SA533B1 Orin LT Heat #: C-8-2 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE. Differential

-40 4 614 -214

-40 4 614 -214

-20 11 10.06 .93 0 20 16.4 3.59 0 19 16.4 2.59 40 45 37.4 715 40 25 37.84 -1284 40 36 37.84 -1.84 70 60 57,32 2.67 0-Data continued on next page *'*

B-94

UNIRRADIATED (LONGITUDINAL)

Page 2 Mater:ial: PLATE SA533B1 Heat Number. C-8-2 Orient, ation: LT Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE Differential 54 57.32 -3.32 70 2,67 70 60 57.32 67 63.06 3.93 80 -.06 80 63 63.06 76 78.56 -2,56 120 -2.56 120 76 76.56 91 84.67 6.32 160 -1.67 160 83 84.67 84 86.85 -2.85 210 SUM of RESIDUALS = -2.13 B-95

UNIRRADIATED (LONGITUDINAL)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 13:48-52 on 05-04-2000 Page 1 Coefficients of Curve I A =50 B=50 C=55.8 TO=69.37 Equation is: Shear! = A + B * [ tanh((T - TO)/C) I Temperature at 50>'. Shear: 693 Material: PLATE SA533B1 Heat Number C-8-2 Orientation: LT Capsule: UNIRR Total Fluence:

100- -

W)

° 80F

/-

60) 4n 4 -

0 207 Il 400 500 600

-300 -200 -100 0 100 200 300 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Caps UNIRR Material: PLATE SA533BI Ori- LT Heat #: C--8-2 Charpy V-Notch Data Input Percent Shear Computed Percent Shear Differential Temperature 0 1.94 -1.94

-40 1.94 -1.94

-40 0 -3.9 0 3.9

-20 7.68 2.31 0 10 2.31 10 7.68 0 25.87 412 40 30 -5.B7 20 25.87 40 25.87 -5.87 40 20 19.43 70 50.56 70

-- Data continued on next page ****

B-96

UNIRRADIATED (LONGITUDINAL)

Page 2 Material: PLATE SA533B1 Heat Number C-8-2 Orientation: LT Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 70 40 50.56 -10.56 70 50 50.56 -.56 80 60 59A .59 80 60 59.4 .59 120 80 85.96 -5.98 120 80 85.98 -5.98 160 100 9625 3.74 160 100 9625 3.74 210 100 99.35 .64 SUM of RESIDUALS = -5.12 B-97

UNIRRADIATED (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 14:50.54 on 05-04-2000 Page 1 Coefficients of Curve 1 A= 73.09 S B= 70.9 C= 60.92 TO = -15 Equation is CVN = A + B

• I tanh((T - TO)/C) ]

Upper Shelf Energy: 144 Fixed Temp. at 30 ft-lbs -57.9 Temp. at 50 ft-lbs -35.6 Lower Shelf Energy. 2.19 Fixed Material: WELD Heat Number: 90136,LINDE 0091LOT 3999 Orientation:

Capsule: UNIRR Total Fluence:

z Q)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SLI Cap: UNIRR Material: WELD Ori- Heat #: 90136,Ui IDE 0091L=U 3999 Charpy V-Notch Data Temperatture Input CVN Energy Computed CYN Energy Differential

-80 15.5 1721 -1.71

-80 8.5 1721 -8.71

-60 61 28.55 3244

-60 13 2855 -15.55

-60 185 28.55 -10.05

-40 49.5 45.53 3.96

-40 45.5 45.53 -.03

-20 68 6729 .7 0 102 9021 11.78

"**Data continued on next page `

B-98

UNIRRADIATED (WELD)

Page 2 Material: WELD Heat Number. 90136LINDE OO91*OT 3999 Orientation:

Capsule: UNIRR Total Fluencm Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 0 78.5 9021 -11.71 0 87.5 9021 -2.71 40 132 123.97 8.02 40 114.5 123.97 -9.47 80 147 137.99 9 80 130 137.99 -7.99 120 150.5 142.33 816 120 140 142Z33 -2,33 160 150 143.54 6A5 StIMof RESIDUALS = 1024 B-99

UNIRRADIATED (WELD)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 1452.N9 on 05-04-2000 Page 1 Coefficients of Curve I A= 4653 S B= 45.53 C= 5824 TO = -1828 Equation is LE. = A + B * [ tanh((T - TO)/C) ]

Upper Shelf L.E- 92.06 Temperature at LE 35: -3,3 Lower Shelf LE- I Fixed Material: WELD Heat Number. 90136,LINDE 0091,LOT 3999 Orientation:

Capsule- UNIRR Total Fluence:

20CFY 9) 150 100~ __ __ _ __ _

l r

P-4 0U 0 I 0

0 J'.- , - q- 9 Y f 9 V)

-300 -200 -100 0 100 200 300 400 50O 6OO Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: WELD Ori- Heat #: 90136,LINDE 0091,LOT 3999 Charpy V-Notch Data Temperature Input Lateral Expansion Computed LE. Differential

-. 0 7 10.76 -3.76

-60 3 10.76 -7.76

--60 44 1855 25.44

-60 6 18.55 -12.55

-40 11 18.55 -755

-40 32 303 1.69 31 30.3 .69

-20 49 45.19 3.8 0 67 60.37 6.62

• • • Data continued on next page I B-IO0

UNIRRADIATED (WELD)

Page 2 Material: WELD Heat Number. 90136LINDE o091JLO 3999 Orientation:

Capsule UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE Differential 0 47 60.37 -13.37 0 61 60.37 .62 40 84 8122 2.77 40 80 8122 -122 80 90 89.05 .94 80 85 89.05 -4.05 120 94 9128 2.71 120 89 9128 -228 160 94 91.86 2.13 SUM of RESIDUALS = -5.09 B-101

UNIRRADIATED (WELD)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 14.5315 on 05-04-2000 Page 1 Coefficients of Curve i A= 50 S B= 50 C= 52.8 T0 =-13.12 Equation is Shear/. = A + B [ tanh((T - TO)/C) I Temperature at 50>. Shear -131 Material: WELD Heat Number 90136,LINDE O091,OT 3999 Orientation:

Capsule: UNIRR Total Fluence:

a)

Cf a)

C) a)

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLi Cap: UNIRR Material: WELD Ori: Heat #: 90136,INDE 0091J=T 3999 Charpy V-Notch Data Temperature Input Percent Shear Computed Percent Shear Differential

-80 10 725 2,64

-80 0 7.35 -7.35

-60 20 14.48 5.51

-60 10 14A8 -4.48

-60 10 14.48 -4.48

-40 30 2654 3.45

-40 30 26.54 3.45

-20 40 4352 -352 0 70 62.17 7.82

• • • Data continued on next page I B-1 02

UNIRRADIATED (WELD)

Page 2 Material: WELI Heat Number. 90136,LINDE 0091,LOT 3999 Orientation:

Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Input Percent Shear Computed Percent Shear Differential Temperature -2.17 0 60 62.17 -217 0 60 6217 1.79 40 90 882 -82 40 80 882 2.85 80 100 97.14 2.85 80 100 97.14 .64 120 100 99.35 .64 120 100 99.35 .14 160 100 99.85 M of RESIDUALS = -.6 SU B-103

UNIRRADIATED (HEAT-AFFECTED-ZONE)

CVGRAPH 41 Hyperbolic Tangent Curve Printed at 15:1817 on 05-10-2000 Page I Coefficients of Curve, A =67.59 B= 65.4 C= 111.63 TO= -6.56 Equation is CVN = A + B

• I tanh((T - TO)/C) I Upper Shelf Energy: 133 Fixed Temp. at 30 ft-lbs: -79.6 Temp. at 50 ft-lbs -37.3 Lower Shelf Energy: 2.19 Fixed Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF ?WELD Orientation:

Capsule: UNIRR Total Fluence 300-c 250-4 200 S 150 0r zI10-

-300 -200 -100 0 100 200 3(00 400 500 600 Temperature in Degr ees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: HEAT AFFD ZONE Ori Heat #:C-8-2 SIDE OF WELD Charpy V-Notch Data Temper ature Input CVN Energy Computed CVN Energy Differential

-100 34.5 22.85 11.64

-40 745 29.87 44.62

-80 41 29.87 11.12

-60 18 38.48 -20.48

-40 56 4857 7.42

-40 19 4857 -29.57 0 68 71A3 -3.43 0 34 71A3 -37.43 40 117 93.39 23.6 SData continued on next page ý B-104

UNIRRADIATED (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number: C-8-2 SIDE OF WELD Orientation:

Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input CVN Energy Computed CVN Energy Differential 40 86.5 93.39 -6.89 60 141.5 102.54 38.95 60 121 10254 18.45 80 94.5 110.11 -15.61 80 75 11011 -3511 120 137.5 120.72 16.77 120 126.5 120.72 5.77 160 134 126.7 729 SUM of RESIDUALS = 3712 B-105

UNIRRADIATED (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1524.05 on 05-10-2000 Page 1 Coefficients of Curve 1 A = 46.47 B = 45.47 C = 124.53 TO = 9.37 Equation is LE = A + B * [ tanh((T - TO)/C) I Upper Shelf LE: 91.95 Temperature at LtE 35: -22.7 Lower Shelf LEL I Fixed Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: UNIRR Total Fluence:

Ul)

• r---

-300 -200 -100 0 100 200 300 400 500 6W0 Temperature in Dearees F Data Set(s) PIotted Plant: SLI Cap: UNIRR Material: HEAT AFFD Z0%1E Ori: Heat #/.C-6-2 SIDE OF WELD Charpy V-Notch Data Temperature Input Lateral Expansion Computed LK Differential

-100 18 1439 3.6

-80 45 18.48 2651

--80 22 18.48 3.51

-60 12 23.47 -11.47

-40 34 29.33 4.66

-40 8 29.33 -21.33 0 44 43.06 .93 0 23 43.06 -20.06 40 73 57.44 15.55

• • • Data continued on next page ****

B-106

UNIRRADIATED (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number. C-8-2 SIDE OF WELD Orientation:

Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LF, Differential 40 57 57.44 -.44 60 83 64 18.99 60 73 64 8.99 80 62 69.81 -7.81 80 53 69.81 -16.81 120 82 78.79 32 120 78 78.79 -.79 160 82 84.52 -4.52 SUM of RESIDUi AUS = 4n7 B-107

UNIRRADIATED (HEAT-AFFECTED-ZONE)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 15:26-00 on 05-10-2000 Page 1 Coefficients of Curve'l A =50 B=50 C=94.87 TO=2.34 Equation is Shear/. = A + B

• I tanh((T - TO)/C) ]

Temperature at 50z/ Shear. 2.3 Material: HEAT AFFD ZONE Heat Number C-8-2 SIDE OF WELD Orientation:

Capsule: UNIRR Total Fluence:

0' cn

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: HEAT AFFD ZONE Ori- Heat #: C'--2 SIDE OF WELD Charpy V-Notch Data Temper, Lture Input Percent Shear Computed Percent Shear Differential

-100 10 10.36 -.36

-80 50 14.98 35.01

-80 10 14.98 -4.98

-60 10 2117 -11.17

-40 30 29.05 .94

-40 10 29.05 -19.05 0 60 48.76 1123 0 40 48.76 -8.76 40 80 68.86 11.13

• "Data continued on next page

• B-1 08

UNIRRADIATED (HEAT-AFFECTED-ZONE)

Page 2 Material: HEAT AFFD ZONE Heat Number: C-8-2 SIDE OF WELD Orientation:

Capsule: UNIRR Total Fluence Charpy V-Notch Data (Continued)

Temperature Input Percent Shear Computed Percent Shear Differential 40 60 68.86 4.86 60 90 7712 12.87 60 90 7712 12.87 80 50 83.71 -33.71 80 80 83.71 -3.71 120 100 9227 7.72 120 100 9227 7.72 160 100 96.52 3.47 SUM of RESIDUALS V2.36 B-109

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 15.:5"26 on 05-04-2000 Page I Coefficients of Curve I A = 68.09 B = 65.9 C = 70.72 TO = 84.08 Equation is: CVN = A + B [ tanh((T - TO)/C) I Upper Shelf Energy: 134 Fixed Temp. at 30 ft-lbs 37.4 Temp. at 50 ft-lbs 64.1 Lower Shelf Energy: 2.19 Fixed Material: SRM SA533BI Heat Number HSST PLATE OIMY Oriehitation: LT Capsule: UNIRR Total Fluence:

30w CO 250 4

200 150 Cb 0

0A 100 0'7,

• f

.4- 4 Wt 4 I I. I

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant: SLI Cap- UNIRR Material: SRM SA533BI Ori- LT Heat #: HSST PLATE O1MY Charpy V-Notch Data Temperature Input CVN Energy Computed CVN Energy Differential

-40 8.5 6.03 2.46

-40 7 6.03 .96 0 12.5 13.38 -.88 0 12 13.38 -1.38 40 37.5 31.63 5.6 40 24.5 31.63 -7.13 60 47.5 46.48 1.01 80 78 64.3 13.69 80 64 64.3 -.3

ý*Data continued on next page *~

B-110

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

Page 2 Material: SRM SA533BI Heat Number HSST PLATE QiMY Orientation: LT Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperatur e Input CVN Energy Computed CVN Energy Differential 73.5 8268 -9.18 100 -5.95 120 93 98.95 90 98.95 -8.95 120 12.78 160 133 12021 126 12021 5.78 160 3.14 210 133.5 130.35 SUM of RESIDUALS 11.92 B-111

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 15.0)6.:49 on 05-04-2000 Page 1 Coefficients of Curve 1 A = 4426 B = 4326 C = 66.75 TO = 75.93 Equation is L. = A + B * [ tanh((T - TO)/C) ]

Upper Shelf LE.: 87.53 Temperature at LF, 35.: 61.4 Lower Shelf LB.: I Fixed Material: SRM SA533B1 Heat Number tSST PLATE OIMY Orientation: LT Capsule: UNIRR Total Fluence:

S3 4-),

-300 -200 -100 0 100 200 300 4 00 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SL1 Cap: UNIRR Material: SRM SA533BI Ori: LT Heat #: HSSI PLATE OIMY Charpy V-Notch Data Temper:ature Input Lateral Expansion Computed LB. Differential

-40 11 3.6 -2.6

-40 3.6 -2.6 0 6 9.06 -3.06 0 6 9.06 -3.06 40 28 22.98 5.01 40 18 2298 -4.98 60 35 34.12 .87 80 59 46.89 121 80 47 46.89 .1

• Data continued on next page **

B-112

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

Page 2 Material: SEM SA533B1 Heat Number HSST PLATE OIMY Orientation: LT Capsule: UNIRR Total Fluence Charpy V-Notch Data (Continued)

Temperature Input Lateral Expansion Computed LE Differential 100 52 5922 -722 120 66 6929 -329 120 66 6929 -329 160 83 81.08 1.91 160 83 81.08 1.91 210 87 86 .99 SUM of RESIDUALS = -7.19 B-1 13

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

CVGRAPH 4.1 Hyperbolic Tangent Curve Printed at 1508.:12 on 05-04-2000 Page 1 Coefficients of Curve t A= 50 S B= 50 C= 68.32 TO = 98.34 Equation is: Shear/. = A + B

• I tanh((T - T0)/C) I Temperature at 50W Shear. 98.3 Material: SRM SA533B1 Heat Number HSST PLATE OMY Orientation: LT Capsule: UNIRR Total Fluence r4 C) 0 243

_4 0*

0

-300 -200 -100 0 100 200 300 400 500 600 Temperature in Degrees F Data Set(s) Plotted Plant SL1 Cap- UNIRR Material: SRM SA533BI Ori: LT Heat #. HSST PLATE OlMY Charpy V-Notch Data Tempera ture Input Percent Shear Computed Percent Shear Differential

-40 0 1.71 -1.71 0 1.71 -1.71

-40 0 10 522 4.67 0 10 532 4.67 40 20 15.34 4.65 40 10 15.34 -5.34 60 30 24.55 5.44 80 40 36.88 311 80 40 36.88 311

"" Data continued on next page -**

B-114

UNIRRADIATED (STANDARD REFERENCE MATERIAL)

Page 2 Material: SRM SA533B1 Heat Number. HSST PLATE OIMY Orientation: LT Capsule: UNIRR Total Fluence:

Charpy V-Notch Data (Continued)

Temperatur e Input Percent Shear Computed Percent Shear Differential 40 5121 -1121 100 -5.33 120 60 65.33 65.33 -5.33 120 60 9.12 160 95 85.87 9.12 160 95 85.87 3.66 210 100 96.33 SUM of RESIDUALS = 16.94 B-115

APPENDIX C Charpy V-Notch Shift Results for Each Capsule Hand-Fit vs. Hyperbolic Tangent Curve-Fitting Method (CVGRAPH, Version 4.1)

C-0

TABLE C-1 Changes inAverage 30 ft-lb Temperatures for Lower Shell Plate C-8-2 (Longitudinal Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3o Unirradiated CVGRAPH Fit AT3o 970 8OF 760 F 68°F 7.25°F 75.95°F 68.70 F 1040 8OF 75 0 F 67 0F 7.250 F 87.12°F 79.87°F 2840 80F - - 7.25OF 95.18°F 87.93 0F TABLE C-2 Changes inAverage 50 ft-lb Temperatures for Lower Shell Plate C-8-2 (Longitudinal Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit ATso Unirradiated CVGRAPH Fit AT5o 970 43 0 F 126°F 83 0F 35.23°F 114.91°F 79.67°F 1040 430 F 123 0F 80°F 35.23°F 122.62°F 87.38°F 2840 430 F -- - 35.23OF 130.62-F 95.38°F TABLE C-3 Changes inAverage 35 mil Lateral Expansion Temperatures for Lower Shell Plate C-8-2 (Longitudinal Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT35 Unirradiated CVGRAPH Fit AT35 970 35 0 F 117 0 F 820 F 35.58°F 111.19 0F 75.6 0F 1040 35 0F 100OF 65OF 35.58OF 108.39 0F 72.8 0F 2840 35 0F - - 35.58°F 131.61 -F 96.03°F TABLE C-4 Changes inAverage Energy Absorption at Full Shear for Lower Shell Plate C-8-2 (Longitudinal Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AE Unirradiated CVGRAPH Fit AE 970 139 ft-lb 107 ft-lb -32 ft-lb 139 ft-lb 107 ft-lb -32 ft-lb 1040 139 ft-lb 116 ft-lb -23 ft-lb 139 ft-lb 116 ft-lb -23 ft-lb 2840 139 ft-lb - - 139 ft-lb 110 ft-lb -29 ft-lb C-1

TABLE C-5 Changes inAverage 30 ft-lb Temperatures for Lower Shell Plate C-8-2 (Transverse Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3o Unirradiated CVGRAPH Fit AT3o 970 16 0F 86 0F 70°F 15.37 0F 79.21°F 63.83°F 1040 N/A N/A N/A N/A N/A N/A 2840 160F - - 15.37 0 F 100.37 0F 84.99-F TABLE C-6 Changes inAverage 50 ft-lb Temperatures for Lower Shell Plate C-8-2 (Transverse Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT5o Unirradiated CVGRAPH Fit AT50 970 40°F 150°F 110°F 46.01°F 138.44°F 92.43°F 1040 N/A NIA N/A N/A N/A N/A 2840 40°F - - 46.01 0 F 143.57°F 97.55-F TABLE C-7 Changes inAverage 35 mil Lateral Expansion Temperatures for Lower Shell Plate C-8-2 (Transverse Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3 Unirradiated CVGRAPH Fit AT35 970 36 0F 126 0 F 90°F 44.98°F 125.42°F 80.44 0 F 1040 N/A N/A N/A N/A N/A N/A 2840 360 F - - 44.98°F 136.08°F 91.1 0F TABLE C-8 Changes inAverage Energy Absorption at Full Shear for Lower Shell Plate C-8-2 (Transverse Orientation)

Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AE Unirradiated CVGRAPH Fit AE 970 103 ft-lb 78 ft-lb -25 ft-lb 103 ft-lb 78 ft-lb -25 ft-lb 1040 N/A N/A N/A N/A N/A N/A 2840 103 ft-lb - - 103 ft-lb 88 ft-lb -15 ft-lb C-2

TABLE C-9 Changes inAverage 30 ft-lb Temperatures for Surveillance Weld Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3o Unirradiated CVGRAPH Fit AT3o 970 -53 0 F 21OF 74 0 F -57.990 F 14.35 0 F 72.34°F 1040 -53 0 F 20°F 73 0 F -57.990 F 9.41 OF 67.40 F 2840 -53 0F - - -57.99OF 10.01 0 F 68.0°F TABLE C-10 Changes inAverage 50 ft-lb Temperatures for Surveillance Weld Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT50 Unirradiated CVGRAPH Fit AT5o 970 -36 0F 440 F 80OF -35.6 0F 42.730 F 78.33°F 1040 -36 0F 490 F 85°F -35.6 0F 39.850 F 75.45°F 2840 -36 0F ....- 5.6 0 F 31.58°F 67.19°F TABLE C-1l Changes inAverage 35 mil Lateral Expansion Temperatures for Surveillance Weld Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3 Unirradiated CVGRAPH Fit AT35 970 0

-35 F 37 0F 72 0 F -32.80 F 40.83°F 73.630 F 1040 -35 0F 25OF 60OF -32.80 F 23.19 0 F 55.99°F 2840 -35 0F .- 32.8 0F 28.640 F 61.440 F TABLE C-12 Changes inAverage Energy Absorption at Full Shear for Surveillance Weld Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AE Unirradiated CVGRAPH Fit AE 970 144 ft-lb 100 ft-lb -44 ft-lb 144 ft-lb 100 ft-lb -44 ft-lb 104 0 144 ft-lb 108 ft-lb -36 ft-lb 144 ft-lb 108 ft-lb -36 ft-lb 2840 144 ft-lb .... 144 ft-lb 110 ft-lb -34 ft-lb C-3

TABLE C-13 Changes in Average 30 ft-lb Temperatures for the Heat-Affected-Zone Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3o Unirradiated CVGRAPH Fit AT3o 970 -60OF -32 0F 28OF -79.66°F -60.18°F 19.48°F 1040 -60°F -25 0F 35 0 F -79.66°F -19.86°F 59.8 0F 2840 -60°F - - -79.66°F -4.87°F 74.79°F TABLE C-14 Changes in Average 50 ft-lb Temperatures for the Weld Heat-Affected-Zone Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT5o Unirradiated CVGRAPH Fit AT5o 970 -40 F 0OF 40F -37.36 0F 5.5 0 F 42.87°F 1040 -40F 46 0F 50OF -37.36°F 26.88°F 64.25°F 2840 -40F - - -37.36°F 44.91°F 82.27°F TABLE C-15 Changes inAverage 35 mil Lateral Expansion Temperatures for the Heat-Affected-Zone Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT3 Unirradiated CVGRAPH Fit AT3 970 -160 F 70F 230 F -22.74°F 7.75°F 30.50 F 1040 -160 F 90F 250 F -22.74°F 18.33 0 F 41.08°F 2840 -160 F - - -22.74°F 42.01 -F 64.76°F TABLE G-16 Changes inAverage Energy Absorption at Full Shear for the Heat-Affected-Zone Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AE Unirradiated CVGRAPH Fit AE 970 133 ft-lb 114 ft-lb -19 ft-lb 133 ft-lb 114 ft-lb -19 ft-lb 1040 133 ft-lb 104 ft-lb -23 ft-lb 133 ft-lb 104 ft-lb -23 ft-lb 2840 133 ft-lb - - 133 ft-lb 93 ft-lb -40 ft-lb C-4

TABLE C-17 Changes in Average 30 ft-lb Temperatures for the HSST-01 Plate Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT30 Unirradiated CVGRAPH Fit AT3o 970......

1040 39 0F 149 0F 110°F 37.40 F 158.4 0 F 121.0°F 2840 -.-.....

TABLE C-18 Changes inAverage 50 ft-lb Temperatures for the HSST-01 Plate Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit ATso Unirradiated CVGRAPH Fit AT5o 970 ........

104° 64 0F 199 0F 135 0 F 64.10 F 198.5 0F 134.1 0 F 2840.......

TABLE C-19 Changes inAverage 35 mil Lateral Expansion Temperatures for the HSST-01 Plate Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AT36 Unirradiated CVGRAPH Fit AT3 970.....

1040 52 0F 172 0F 120°F 61.4 0 F 183.2°F 121.8 0 F 2840...

TABLE C-20 Changes inAverage Energy Absorption at Full Shear for the HSST-01 Plate Material Hand Fit vs. CVGRAPH 4.1 Capsule Unirradiated Hand Fit AE Unirradiated CVGRAPH Fit AE 970 -- - -.

1040 134 ft-lb 87 ft-lb -47 ft-lb 134 ft-lb 87 ft-lb -47 ft-lb 2840.....

C-5

APPENDIX D St. Lucie Unit 1 Surveillance Program Credibility Analysis D-0

INTRODUCTION:

Regulatory Guide 1.99, Revision 2, describes general procedures acceptable to the NRC staff for calculating the effects of neutron radiation embrittlement of the low-alloy steels currently used for light-water-cooled reactor vessels. Position C.2 of Regulatory Guide 1.99, Revision 2, describes the method for calculating the adjusted reference temperature and Charpy upper-shelf energy of reactor vessel beltline materials using surveillance capsule data. The methods of Position C.2 can only be applied when two or more credible surveillance data sets become available from the reactor in question.

To date there has been three surveillance capsules removed from the St. Lucie Unit 1 reactor vessel. To use these surveillance data sets, they must be shown to be credible. In accordance with the discussion of Regulatory Guide 1.99, Revision 2, there are five requirements that must be met for the surveillance data to be judged credible.

The purpose of this evaluation is to apply the credibility requirements of Regulatory Guide 1.99, Revision 2, to the St. Lucie Unit 1 reactor vessel surveillance data and determine if the St. Lucie Unit 1 surveillance data is credible.

EVALUATION:

Criterion 1: Materials in the capsules should be those judged most likely to be controlling with regard to radiation embrittlement.

The beltline region of the reactor vessel is defined in Appendix G to 10 CFR Part 50, "Fracture Toughness Requirements", as follows:

"the reactor vessel (shell material including welds, heat affected zones, and plates or forgings) that directly surrounds the effective height of the active core and adjacent regions of the reactor vessel that are predicted to experience sufficient neutron radiation damage to be considered in the selection of the most limiting material with regard to radiation damage."

The St. Lucie Unit 1 reactor vessel consists of the following beltline region materials:

- Intermediate Shell Plates C-7-1, 2 and 3,

- Lower Shell Plates C-8-1, 2 and 3,

- Intermediate to lower shell circumferential weld seam 9-203 (Heat 90136, Linde 0091)

- Intermediate shell plate longitudinal weld seams 2-203A, B & C (Heat A8746, 34B009, Linde 124).

- Lower shell longitudinal weld seams 3-203A, B & C (Heat 305424, Linde 1092).

Per CENPD-39, "Summary Report on Manufacture of Test Specimens and Assembly of Capsules for Irradiation Surveillance of Hutchinson Island Plant - Unit 1 Reactor Vessel Materials", the surveillance materials in the surveillance program are those judged most limiting.

Hence, Criterion 1 is met for the St. Lucie Unit 1 reactor vessel.

D-1

Criterion 2: Scatter in the plots of Charpy energy versus temperature for the irradiated and unirradiated conditions should be small enough to permit the determination of the 30 ft-lb temperature and upper shelf energy unambiguously.

Plots of Charpy energy versus temperature for the unirradiated and irradiated condition are presented in Appendix B of this calcnote.

Based on engineering judgment, the scatter in the data presented in these plots is small enough to permit the determination of the 30 ft-lb temperature and the upper shelf energy of the St. Lucie Unit 1 surveillance materials unambiguously. Hence, the St. Lucie Unit I surveillance program meets this criterion.

Criterion 3: When there are two or more sets of surveillance data from one reactor, the scatter of ARTNDT values about a best-fit line drawn as described in Regulatory Position 2.1 normally should be less than 28°F for welds and 17°F for base metal. Even if the fluence range is large (two or more orders of magnitude), the scatter should not exceed twice those values. Even if the data fail this criterion for use in shift calculations, they may be credible for determining decrease in upper shelf energy if the upper shelf can be clearly determined, following the defmition given in ASTM E185-82.

The functional form of the least squares method as described in Regulatory Position 2.1 will be utilized to determine a best-fit line for this data and to determine if the scatter of these ARTNDT values about this line is less than 28°F for welds and less than 17'F for the plate.

Following is the calculation of the best fit line as described in Regulatory Position 2.1 of Regulatory Guide 1.99, Revision 2.

D-2

TABLE D- 1: St. Lucie Unit 1 Surveillance Capsule Data Material Capsule Capsule 0(a) FF) ARTNDT(C) FF*ARTNT FF 2 Lower Shell 970 0.591 0.853 68.7 58.601 0.728 Plate C-8-2 1040 0.918 0.976 79.87 77.953 0.953 (Longitudinal) 2840 1.45 1.103 87.93 96.987 1.217 Lower Shell 970 0.591 0.853 63.83 54.447 0.728 Plate C-8-2 1040 0.918 0.976 N/A(e) N/A(e) N/A(e)

(Transverse) 2840 1.45 1.103 84.99 93.744 1.217 SUM: 381.732 4.843 CFo5 = E(FF

• RTNDT) + J( FF 2) = (381.732) + (4.843) = 78.8 OF()

Surveillance Weld 970 0.591 0.853 72.34 61.706 .728 Material(d) 1040 0.918 0.976 67.4 65.782 0.953 2840 1.45 1.103 68.0 75.004 1.217 SUM: 202.492 2.898 CF S.. Weld = E(FF

• RTNT) + Z( FF 2) = (202.492 IF) + (2.898) = 69.90P)o Notes:

(a) f= calculated fluence from capsule 2840 dosimetry analysis results, (x 10'9 n/cm 2 , E > 1.0 MeV).

(b) FF = fluence factor = f(0.28 - 0.1*logf)

(c) ARTNDT values are the measured 30 ft-lb shift values taken from App. B.

(d) Ratio does not apply to credibility.

(e) No Transverse Material in Capsule 1040.

(f) Rounded to one decimal point.

D-3

The scatter of ARTrDT values about the functional form of a best-fit line drawn as described in Regulatory Position 2.1 is presented in Table D-2.

TABLE D-2 Best Fit Evaluation for St. Lucie Unit 1 Surveillance Materials Base Material CF FF Measured Best Fit(a) Scatter of < 17'F (Base Metals)

(OF) ARTNDT ARTNDT ARTNDT < 28'F (Weld Metal)

(30 ft-lb) (OF) (OF)

(OF)

Lower Shell 78.8 0.853 68.7 67.22 1.5 Yes Plate C-8-2 78.8 0.976 79.87 76.91 3.0 Yes (Longitudinal) 78.8 1.103 87.93 86.92 1.0 Yes Lower Shell 78.8 0.853 63.83 67.22 -3.5 Yes Plate C-8-2 78.8 0.976 N/A(b) 76.91 N/A(b) N/A(b)

(Transverse) 78.8 1.103 84.99 86.92 -1.9 Yes Surveillance Weld 69.9 0.853 72.34 59.6 12.7 Yes Metal 69.9 0.976 67.4 68.2 -0.8 Yes 69.9 1.103 68.0 77.10 -9.1 Yes NOTES:

(a) Best Fit Line Per Equation 2 of Reg. Guide 1.99 Rev. 2 Position 1.1.

(b) No Transverse Material in Capsule 104'.

Table D-2 indicates that all measured plate and weld ARTNDT values are within the lc scatter band.

Therefore, the weld and plate data meets this criteria.

Criterion 4: The irradiation temperature of the Charpy specimens in the capsule should match the vessel wall temperature at the cladding/base metal interface within +/- 25°F.

The capsule specimens are located in the reactor between the thermal shield and the vessel wall and are positioned opposite the center of the core. The test capsules are in baskets attached to the reactor vessel. The location of the specimens with respect to the reactor vessel beltline provides assurance that the reactor vessel wall and the specimens experience equivalent operating conditions such that the temperatures will not differ by more than 25°F. Hence, this criteria is met.

D-4

Criterion 5: The surveillance data for the correlation monitor material in the capsule should fall within the scatter band of the database for that material.

The St. Lucie Unit 1 surveillance program does have Standard Reference Material. NUREG/CR-6413, ORNL/TM-13133 contains a plot of residual vs. Fast Fluence for the SRM (Figure 11 in the report). This Figure shows a 2a uncertainty of 50'F. The data used for this plot is contained in Table 14 (in the NUREG 0

Report). However, the data in the NUREG Report has not been considered the recalculated Capsule 104 as documented herein or the ARTNDT values as plotted using CVGraph. Thus, Table D-3 contains an updated calculation of Residual vs. Fast fluence.

TABLE D-3 Calculation of Residual vs. Fast Fluence Capsule Fluence Fluence Measured Shift RG 1.99 Shift Residual (x 10'9 n/cm2) Factor (FF) (CF*FF)(a) (Meas.- RG Shift) 1040 0.918 0.976 121.00 132.83 -11.8 (a) Per NUREG/CR-6413, ORNL/TM- 13133, the Cu and Ni values for the Correlation Monitor Material is 0.18 Cu and 0.66 Ni. This equates to a Chemistry Factor of 136.1°F from Reg. Guide 1.99 Rev. 2.

Table D-3 shows a 2a uncertainty of less than 50'F, which is the allowable scatter in NUREG/CR-6413, ORNL/TM-13133. Hence, this criteria is met.

CONCLUSION:

Based on the preceding responses to all five criteria of Regulatory Guide 1.99, Revision 2, Section B and 10 CFR 50.61, the St. Lucie Unit 1 surveillance weld data and the surveillance plate data meet the nominal credibility requirements of Regulatory Guide 1.99, Revision 2.

D-5