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=Text=
=Text=
{{#Wiki_filter:}}
{{#Wiki_filter:*/TENNESSEE VALLEY JEXAMJrNATJrON
 
==SUMMARY==
REPORT NUMBER: AUTHORITY AND RESOLUTJrON SHEET r-:<.-PO, or PROJECT: WBN UNJrT: 2 CYCLE Of)COMPONENT In: RCW-Ol EXAMINATION METHOD SYSTEM: RCS lSI DWG NO: ISI-2068-W-02
'0 MT 0 PT 0 DTVT 0 CONFIGURATJrON:
CATEGOR PROCEDURE:N*UT*64 REV J I TC: jl/I A BRCN TO P B*J EXAMINER: EXAMINER: EXAMINER: EXAMINER: JA.JoN NfsSEiV Total coverage calculated to be approximately lj B.I%*RESOLUTJrON BY:
DATE:ACCESS: FORMS DATABASE R-10/04/01 ANn:--_-_........_-_..y_/__---_.DATE: (tl9_,_OF (.,.
TENNESSEE VALLEY AUTHORITY DIGITAL ULTRASONIC CALIBRATION DATA SHEET REPORT NUMBER R-PolO)ROJECT WBN UNIT/CYCLE 2/00 CALIBRATION DATE: '",110 I DB CALIBRATION BLOCK NO.WB 83 TEMP:?c., OF PROCEDURE:
N-UT-64 REV: II TC: rJ/A SIMULATOR BLOCK: A01"\PAS TRANSDUCER MANUFAC_KgB MODEL: COf11e-(jI&deg; THERMOMETERSIN:56;;l??3 DUEDATE:O.I:Jo!o9
#ELEMENTS: I SHAPE: ROlJ..IUO COUPLANT:
o,,,a.5&#xa3;SIN SIZE:.3'7S BLOCKTYPEQO"""AS SIN: '7'10390 CONTOUR: "'IA FOCUS: NIP, NOMINAL ANGLE: 45*ACTUAL ANGLE 49&deg;/\INSTRUMENT CABLE TYPE RG*I'7Lf LENGTH: t2#CNT:..!'!.lA..
MANUFACTURER:KAA<ArkJCl4f1tUDUE DATE:OS!IB/61 MODE:SHEAR 0 LONG 0 RL MODEL NO.: U.SN*'0 SIN:&#xa3;3'7690 z..OF" ANII: PAGE DATE: DAC REFLECTOR REFERENCE MEMORY SCAN DIRECT.NTC SENSITMTY NUMBERSIGNAL 2 SIGNAL 1 GAIN SET LVL.::IL DATE:n l>oV 100 A AXIAL 80 M CIRC.P 60 L I 40 T U 20 D E 0 inches VERTICAL TENNESSEE VALLEY AUTHORITY DIGITAL ULTRASONIC CALIBRATION DATA SHEET REPORT NUMBER R-YO\OI ROJECT WBN UNIT/CYCLE 2/00 CALIBRATION DATE: '''//6/08 CALIBRATION BLOCK NO.wi Q3 TEMP:?6 OF PROCEDURE:
N-UT-64 REV:'I TC: Nt A MANUFAC T&LA DATE: 06/).0/69 COUPLANT: (J..1..1'"AA6-SL n: BATCH: Db J}.:).S f#ELEMENTS:;;l SHAPE:
ANGLE VERIFICATION
------1 SIN 96*B53 SIZE: lL8}(Ill)FREQ: MH BLOCK TYPE ftOMPJtlS" SIN: "]10110 CONTOUR: N/A FOCUS: Nt It NOMINAL ANGLE: 60 not..ACTUAL ANGLE/'0 u.?/I INSTRUMENT CABLE TYPE itG-" J'21f LENGTH: b#
MANUFACTURER:kMI).,TMlfPlig DUE DATE: rs!l9>lfJQ MODE: DSHEAR DLONG I}(!RL MODEL NO.: u..SN"'O SIN:!.37690 CALIBRATION TIMES CIRC.DD INITIAL TIME: 13?FINAL TIME: RANGE: a.000 inches*FREQ: MHz PROBEDELA/.I.f?S'1msec
*RECTIFY: f&#xa3;i..(J..l,J,flE.
VELOCITY*.,.,,, , msec DUALON DOFF DISP DELAY: 0.000*REJECT: 0%*ENERGY: H 16-H*DISP.START: 'l:P*DAMPING: I k ohms.*PRRlPRF" 11 DET:Peak
:
fJ16J fN'.t"A>9 ANGLE'bD ilL deg TCG: D ON ZERO: tJl4 msec*PULSER: Dc,."flL A M P L I T U D E DAC REFLECTOR REFERENCE MEMORY SCAN DIRECT.NTC SDH SENSITMTY NUMBER AXIALD 20 1----+----1--+--1----+----+------1-+--1---1 60 80 40 100 1----+----I--+--I----+----+----:f-+--I---1
*PDI QUALIFIED INSTRUMENT SETTINGS: VERIFY INSTRUMENT SETTINGS AND CALIBRATION SEQUENCE ARE IN ACCORDANCE WITH TABLE 2 OF THE APPLICABLE PDI QUALIFICATION IMPLEMENTATION PROCEDURE!
VERTICAL SIGNAL 1 SIGNAL 2 GAIN SET LINEARITY CHECK XAMINER:
ANII:LVL.::n'DATE: 2-t.J&#xa2;f LVL.:::IZ:I:-.
DATE: R'&.PAGE 3 OF Co V ACCESS FORMS
__
TENNESSEE VALLEY MANUAL ULTRASONIC REPORT NUMBER AUTHORITY PIPING EXAMINATION g-'POI 01 DATA SHEET ROJECT: WBN UNIT/CYCLE2I DD EXAMINATION DATE 1').//0/08 SYSTEM: RCS STARTTIMEj IY/B END TIME:/43 ():7PP P.c.v-0 I WELD I.D.:-Rf}#':.tn 1').1/5/08 EXAM SURFACE DID CONFIG.: BRCN TO P til MATERIAL TYPE: OCS[8lSS OCSCL OCCSS FLOW SURFACE TEMP.: 74.S PYRONO.56).773 PROCEDURE:N-UT-64 REV:-lL.TC: NUi EXAMINATION ANGLE 4S DEG.60 (/..1.DEG.Wo
 
==REFERENCE:==
 
EDt;'o&#xa3;Ross AXIAL SCAN SENSITIVITY 50 dB??dB Lo
 
==REFERENCE:==
 
jo\:r'\fZ.
P1o-;", (v.f\fl'f'*CIRC.SCAN SENSITIVITY 50 dB A\/A dB INO L (in)FROM REF.AT MAX AMP MAX EXAM NOM.INDICATION INFORMATION:
AMP NO.NRI NO.L1 LMax L2 WMAX MPMAX DMAX%DAC 3-14 ANG.TYPE, DAMPING, ETC.3PoL.[2(1'.'3 ,-+>05IKl (;[RJ 0 0 REMARKS/LIMITA TIONS E;)(AfYI L If"\.IrEf)()U,I: ,0 P..a.thvc..H LOvVJ'\J{:;r_1'/fHIl c.-o;.J{:'Ib-v..tMrlol\J, NO (: yAM Sf.Avuo:;..cilDM fr/AI(J a I.LVI) (J\Pr:: mil J IV l'jHVVF'n::l&#xa3;')'Y.T ()(),OL.J#EXAMINER:
ANII: f!L)DATE: "2-(l//cf r AT REVIEWED........-'L'C/LEVEL::::ur..DATE: 1Z,(7:.'/4 f PAGE 4 OF (,.,/./)}ACCESS.FORMS DATABASE 10/18/01 WAll SHEET*
W:...;B;;.../J
_uNlr:I'lEPOIRT NO: WIElD INO:__
_
_
Aill including Wlc:!Width, IEdll1...*'j"o*Edgl.l>
At 0&deg;WQld CIHlterllnlll POI\I!tIOfl 0&deg;90&deg;(3]?-.O".0" 1.9?',.'1'[i]t."...r"CROWN HEiGHT: fLl,A..sf.I
')..0" CRQWN WIDTH:..;......,_t.t" DIAMETER:=
1.j 0" WELD
_*I*
LEVel: TIT'DATE:'l./z-&#xa5;a'TY A i%6ti (NP*5*li9)
ANU: OATE: PAGE r OF" o'" REPORT R-70)0--'1 PROJECT: ltJtN*
_WELD NO: (},LvJ-0 l UNIT:.TVA Office of N1lJldear Power PMfiV B P-i\N (,/1 (,oNNC;C.TrotJ"""r f-1_"{J nyo lOll'0LEVEL:DATE:)')!lI/oB PAGE (p OF
 
'.NPG CALCULATION OF ASME CODE N-GP-31 Nondestructive COVERAGE FOR SECTION XI, APPENDIX Rev.0002 Examination VIII ULTRASONIC EXAMINATIONS Page 16 of 24 Procedure Attachment 4 (Page 1 of 1)AUSTENITIC PIPING WELDS SINGLE SIDE ACCESS-SUPPLEMENT 2 Required and obtained examination volume coverage work sheet Below is a typical example of examination coverage plots although are not to be considered inclusive of all situations.
Typical example of a single sided access examination of an austenitic piping weld, examination credit can not be taken beyond the weld centerline when the beam is directed through the weld material.Although examinations are required to be performed with the ultrasonic beam directed through the weld material, however they can not be considered totally effective or creditable.
Note: Typically a one-sided austenitic weld examination with no circumferential restrictions would be indicated as 75%examination coverage or 50%if circumferential scans were limited to one side.'-o*I*I c: I I 2J I I I I J ONLYR.LLJ'0\LJ=J.3'tl H.-.'s"41;)" Item Description Value REQUIRED EXAMINATION VOLUME 1 Required examination volume in sq in.(width x height)for single scan stroke 2 Number of scan directions (normally 4;i.e.upst,dnst, cw,&ccw))t;3 Total scan volume in sq inches (Item 1*Item 2)3.5'''4 4 Total length of weld liO 5 Total required examination volume in cubic inches (Item 3*Item 4)llit.'i'" OBTAINED EXAMINATION VOLUME 6 Examination volume achieved (sq in for single scan stroke)in 1 axial scanning j;Y direction (i.e.upst)multiplied by the length of weld examined 7 Examination volume achieved (sq in for single scan stroke)in 1 axial scanning direction (i.e.dnst)multiplied by the length of weld examined;t s.';;2 8 Examination volume achieved (sq in for single scan stroke)in 1 circumferential scanning direction (i.e.cw)multiplied by the length of weld examined/1.&9 Examination volume achieved (sq in for single scan stroke)in 1 circumferential
/1, , scanning direction (i.e.ccw)multiplied by the length of weld examined 10 Determine the achieved examination volume by adding Items 6,7,8.and 9'4.L.f 11 Examination volume percentage
[(Item 101 item 5)X 100]*'15"s}...'1'**}}

Revision as of 03:46, 19 September 2018

NDE Report R-P0107
ML102930326
Person / Time
Site: Watts Bar Tennessee Valley Authority icon.png
Issue date: 10/11/2010
From:
Tennessee Valley Authority
To:
Office of Nuclear Reactor Regulation
References
R-P0107
Download: ML102930326 (7)
v  d  e


Text

  • /TENNESSEE VALLEY JEXAMJrNATJrON

SUMMARY

REPORT NUMBER: AUTHORITY AND RESOLUTJrON SHEET r-:<.-PO, or PROJECT: WBN UNJrT: 2 CYCLE Of)COMPONENT In: RCW-Ol EXAMINATION METHOD SYSTEM: RCS lSI DWG NO: ISI-2068-W-02

'0 MT 0 PT 0 DTVT 0 CONFIGURATJrON:

CATEGOR PROCEDURE:N*UT*64 REV J I TC: jl/I A BRCN TO P B*J EXAMINER: EXAMINER: EXAMINER: EXAMINER: JA.JoN NfsSEiV Total coverage calculated to be approximately lj B.I%*RESOLUTJrON BY:

DATE:ACCESS: FORMS DATABASE R-10/04/01 ANn:--_-_........_-_..y_/__---_.DATE: (tl9_,_OF (.,.

TENNESSEE VALLEY AUTHORITY DIGITAL ULTRASONIC CALIBRATION DATA SHEET REPORT NUMBER R-PolO)ROJECT WBN UNIT/CYCLE 2/00 CALIBRATION DATE: '",110 I DB CALIBRATION BLOCK NO.WB 83 TEMP:?c., OF PROCEDURE:

N-UT-64 REV: II TC: rJ/A SIMULATOR BLOCK: A01"\PAS TRANSDUCER MANUFAC_KgB MODEL: COf11e-(jI° THERMOMETERSIN:56;;l??3 DUEDATE:O.I:Jo!o9

  1. ELEMENTS: I SHAPE: ROlJ..IUO COUPLANT:

o,,,a.5£SIN SIZE:.3'7S BLOCKTYPEQO"""AS SIN: '7'10390 CONTOUR: "'IA FOCUS: NIP, NOMINAL ANGLE: 45*ACTUAL ANGLE 49°/\INSTRUMENT CABLE TYPE RG*I'7Lf LENGTH: t2#CNT:..!'!.lA..

MANUFACTURER:KAA<ArkJCl4f1tUDUE DATE:OS!IB/61 MODE:SHEAR 0 LONG 0 RL MODEL NO.: U.SN*'0 SIN:£3'7690 z..OF" ANII: PAGE DATE: DAC REFLECTOR REFERENCE MEMORY SCAN DIRECT.NTC SENSITMTY NUMBERSIGNAL 2 SIGNAL 1 GAIN SET LVL.::IL DATE:n l>oV 100 A AXIAL 80 M CIRC.P 60 L I 40 T U 20 D E 0 inches VERTICAL TENNESSEE VALLEY AUTHORITY DIGITAL ULTRASONIC CALIBRATION DATA SHEET REPORT NUMBER R-YO\OI ROJECT WBN UNIT/CYCLE 2/00 CALIBRATION DATE: //6/08 CALIBRATION BLOCK NO.wi Q3 TEMP:?6 OF PROCEDURE:

N-UT-64 REV:'I TC: Nt A MANUFAC T&LA DATE: 06/).0/69 COUPLANT: (J..1..1'"AA6-SL n: BATCH: Db J}.:).S f#ELEMENTS:;;l SHAPE:

ANGLE VERIFICATION

1 SIN 96*B53 SIZE: lL8}(Ill)FREQ: MH BLOCK TYPE ftOMPJtlS" SIN: "]10110 CONTOUR: N/A FOCUS: Nt It NOMINAL ANGLE: 60 not..ACTUAL ANGLE/'0 u.?/I INSTRUMENT CABLE TYPE itG-" J'21f LENGTH: b#

MANUFACTURER:kMI).,TMlfPlig DUE DATE: rs!l9>lfJQ MODE: DSHEAR DLONG I}(!RL MODEL NO.: u..SN"'O SIN:!.37690 CALIBRATION TIMES CIRC.DD INITIAL TIME: 13?FINAL TIME: RANGE: a.000 inches*FREQ: MHz PROBEDELA/.I.f?S'1msec

  • RECTIFY: f£i..(J..l,J,flE.

VELOCITY*.,.,,, , msec DUALON DOFF DISP DELAY: 0.000*REJECT: 0%*ENERGY: H 16-H*DISP.START: 'l:P*DAMPING: I k ohms.*PRRlPRF" 11 DET:Peak

fJ16J fN'.t"A>9 ANGLE'bD ilL deg TCG: D ON ZERO: tJl4 msec*PULSER: Dc,."flL A M P L I T U D E DAC REFLECTOR REFERENCE MEMORY SCAN DIRECT.NTC SDH SENSITMTY NUMBER AXIALD 20 1----+----1--+--1----+----+------1-+--1---1 60 80 40 100 1----+----I--+--I----+----+----:f-+--I---1

  • PDI QUALIFIED INSTRUMENT SETTINGS: VERIFY INSTRUMENT SETTINGS AND CALIBRATION SEQUENCE ARE IN ACCORDANCE WITH TABLE 2 OF THE APPLICABLE PDI QUALIFICATION IMPLEMENTATION PROCEDURE!

VERTICAL SIGNAL 1 SIGNAL 2 GAIN SET LINEARITY CHECK XAMINER:

ANII:LVL.::n'DATE: 2-t.J¢f LVL.:::IZ:I:-.

DATE: R'&.PAGE 3 OF Co V ACCESS FORMS

__

TENNESSEE VALLEY MANUAL ULTRASONIC REPORT NUMBER AUTHORITY PIPING EXAMINATION g-'POI 01 DATA SHEET ROJECT: WBN UNIT/CYCLE2I DD EXAMINATION DATE 1').//0/08 SYSTEM: RCS STARTTIMEj IY/B END TIME:/43 ():7PP P.c.v-0 I WELD I.D.:-Rf}#':.tn 1').1/5/08 EXAM SURFACE DID CONFIG.: BRCN TO P til MATERIAL TYPE: OCS[8lSS OCSCL OCCSS FLOW SURFACE TEMP.: 74.S PYRONO.56).773 PROCEDURE:N-UT-64 REV:-lL.TC: NUi EXAMINATION ANGLE 4S DEG.60 (/..1.DEG.Wo

REFERENCE:

EDt;'o£Ross AXIAL SCAN SENSITIVITY 50 dB??dB Lo

REFERENCE:

jo\:r'\fZ.

P1o-;", (v.f\fl'f'*CIRC.SCAN SENSITIVITY 50 dB A\/A dB INO L (in)FROM REF.AT MAX AMP MAX EXAM NOM.INDICATION INFORMATION:

AMP NO.NRI NO.L1 LMax L2 WMAX MPMAX DMAX%DAC 3-14 ANG.TYPE, DAMPING, ETC.3PoL.[2(1'.'3 ,-+>05IKl (;[RJ 0 0 REMARKS/LIMITA TIONS E;)(AfYI L If"\.IrEf)()U,I: ,0 P..a.thvc..H LOvVJ'\J{:;r_1'/fHIl c.-o;.J{:'Ib-v..tMrlol\J, NO (: yAM Sf.Avuo:;..cilDM fr/AI(J a I.LVI) (J\Pr:: mil J IV l'jHVVF'n::l£')'Y.T ()(),OL.J#EXAMINER:

ANII: f!L)DATE: "2-(l//cf r AT REVIEWED........-'L'C/LEVEL::::ur..DATE: 1Z,(7:.'/4 f PAGE 4 OF (,.,/./)}ACCESS.FORMS DATABASE 10/18/01 WAll SHEET*

W:...;B;;.../J

_uNlr:I'lEPOIRT NO: WIElD INO:__

_

_

Aill including Wlc:!Width, IEdll1...*'j"o*Edgl.l>

At 0°WQld CIHlterllnlll POI\I!tIOfl 0°90°(3]?-.O".0" 1.9?',.'1'[i]t."...r"CROWN HEiGHT: fLl,A..sf.I

')..0" CRQWN WIDTH:..;......,_t.t" DIAMETER:=

1.j 0" WELD

_*I*

LEVel: TIT'DATE:'l./z-¥a'TY A i%6ti (NP*5*li9)

ANU: OATE: PAGE r OF" o'" REPORT R-70)0--'1 PROJECT: ltJtN*

_WELD NO: (},LvJ-0 l UNIT:.TVA Office of N1lJldear Power PMfiV B P-i\N (,/1 (,oNNC;C.TrotJ"""r f-1_"{J nyo lOll'0LEVEL:DATE:)')!lI/oB PAGE (p OF

'.NPG CALCULATION OF ASME CODE N-GP-31 Nondestructive COVERAGE FOR SECTION XI, APPENDIX Rev.0002 Examination VIII ULTRASONIC EXAMINATIONS Page 16 of 24 Procedure Attachment 4 (Page 1 of 1)AUSTENITIC PIPING WELDS SINGLE SIDE ACCESS-SUPPLEMENT 2 Required and obtained examination volume coverage work sheet Below is a typical example of examination coverage plots although are not to be considered inclusive of all situations.

Typical example of a single sided access examination of an austenitic piping weld, examination credit can not be taken beyond the weld centerline when the beam is directed through the weld material.Although examinations are required to be performed with the ultrasonic beam directed through the weld material, however they can not be considered totally effective or creditable.

Note: Typically a one-sided austenitic weld examination with no circumferential restrictions would be indicated as 75%examination coverage or 50%if circumferential scans were limited to one side.'-o*I*I c: I I 2J I I I I J ONLYR.LLJ'0\LJ=J.3'tl H.-.'s"41;)" Item Description Value REQUIRED EXAMINATION VOLUME 1 Required examination volume in sq in.(width x height)for single scan stroke 2 Number of scan directions (normally 4;i.e.upst,dnst, cw,&ccw))t;3 Total scan volume in sq inches (Item 1*Item 2)3.54 4 Total length of weld liO 5 Total required examination volume in cubic inches (Item 3*Item 4)llit.'i'" OBTAINED EXAMINATION VOLUME 6 Examination volume achieved (sq in for single scan stroke)in 1 axial scanning j;Y direction (i.e.upst)multiplied by the length of weld examined 7 Examination volume achieved (sq in for single scan stroke)in 1 axial scanning direction (i.e.dnst)multiplied by the length of weld examined;t s.';;2 8 Examination volume achieved (sq in for single scan stroke)in 1 circumferential scanning direction (i.e.cw)multiplied by the length of weld examined/1.&9 Examination volume achieved (sq in for single scan stroke)in 1 circumferential

/1, , scanning direction (i.e.ccw)multiplied by the length of weld examined 10 Determine the achieved examination volume by adding Items 6,7,8.and 9'4.L.f 11 Examination volume percentage

[(Item 101 item 5)X 100]*'15"s}...'1'**

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