structural integrity assessments of class 1 candu components
TRANSCRIPT
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Structural Integrity Assessments of Class 1 CANDU Components
Xinjian Duan, Michael J. KozlukAtomic Energy of Canada Limited
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Outline• Observed Degradations
– Steam Generator Tubing– Feeder Piping
• Fitness-for-Service Guidelines• Structural Integrity Assessments
– Material Characterizations– Steam Generator Tube Testing Project (SGTTP)– Feeder Bend Testing Project (FBTP)– Advanced Finite Element Analysis
• Conclusions
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Piping in CANDU ® Reactor
Feeder Piping
Steam Generator
Fuel Channel
Header
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Steam Generators in CANDU
M400 I600 I600 I800 I8000.5-inch 5/8-inch
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Degradations in Pickering A S.G.
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Degradations of Monel 400 SG Tubes
Inter Granular Attack Pitting Inner Diameter Lap
Cracking Wall Thinning
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Degradations in Feeder Piping
Local Wall Thinning Cracking
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Fitness-for-Service Guidelinesfor Steam Generator and Feeder
• Inspection• Condition Monitoring Assessment
– Current and backward looking• Operational Assessment
– Forward looking• Assessment of inspected and uninspected components• Leak-Before-Break
– Must be demonstrated whenever through-wall penetration is credible
– operational leakage– consequential leakage
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Steam Generator Tube Testing Project(SGTTP)• Initiated in 1999 by OPG• Three Materials
– Monel 400– Inconel 600– Incoloy 800
• Four Types of Tests– Burst-Pressure Test– Pressurized-Bending Test– Leak-Rate Test– Materials Characterization
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Some SGTTP Testing Results
Fret Scar 360o Uniform Thinning (Wastage)
EDM Axial Slot (Crack-Like Flaw) Defect-Free Ex-Service Tube
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Feeder Bend Testing Project (FBTP)• Initiated in 2002 by CANDU Owners Group (COG)• SA-106 Gr. B carbon steel• Phase 1 (2003-2005)
Through-wall axial crack at the intrados/cheek of feeder bend• Phase 2 (2005-2007)
Through-wall axial crack at the extrados of feeder bend• Phase 3 (2007-2009)
Local wall thinning downstream of welds• Utilities sponsored tests of ex-service components
Feeder bend with surface cracksFeeder elbow with local wall thinning
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Material Characterizations• Tensile Properties
Temperature: -196°C - 400 °CStrain rate: 0.0001s-1 - 10 s-1
• Fracture Toughness-196°C to 310°C
• Micro Hardness
Large database since 1970sLocations: Straight pipe, Extrados, CheeksMaterials: Archive, Ex-service
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Tests in 1980s
Before Test
After Test• 310°C• Combined loading• As fabricated bend• No flaw• Interrupted to check crack initiation
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FBTP – Phase 2 Extrados Crack
• 265°C• Through-Wall Axial Crack• High Temperature Liner• Thinned Bend• Quasi-Static Loading• Pressure & Bending Moment• Ductile Shear Failure
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Mode of Failure
Full ductile mode of failure
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Unique Feature of Thin Wall Piping
Substantial plastic deformation ahead of crack tip
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Predictions versus MeasurementsFeeder Bend Testing Project – Phase 2
0
10 MPa
20 MPa
30 MPa
40 MPa
50 MPa
0 MPa 10 MPa 20 MPa 30 MPa 40 MPa 50 MPaPredicted Failure Pressure
Mea
sure
d Fa
ilure
Pre
ssur
e
extrados - pressure only extrados - pressure & bending intrados - pressure only intrados - pressure & bending correlation line
Simple Folias model gives good predictions.
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Test of Ex-Service Feederwith Surface Cracks
4
1
2
5
3
73%tw90oC
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Tests of Ex-Service Feederwith Blunt Flaw
•Minimum wall thickness 3.0 mm•Full ductile mode of failure•90°C
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Heterogeneous Finite Element ModelOutside Surface
Safety Factor:1.3 � FFSG3.0 � HFEM
Crack-tip
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Conclusions• Tests of ex-service components provide strong support for the safe operation of ageing reactors.
• Both SGTTP and FBTP test results indicate that the fracture mechanics is not appropriate for the thin wall small diameter components.
• Advanced finite element model has been developed and proved to be useful for the failure analysis.
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Acknowledgements• CANDU Owners Group (COG)
– Feeder Integrity Joint Project (FIJP)– Chemistry Materials & Components (CM&C)
• Ontario Power Generation• New Brunswick Power Nuclear
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Recent Publications• Xinjian Duan, Michael J. Kozluk, Tracy Gendron, John Slade, “Alternative Methodology for Assessing Part-Through-Wall Cracks in Carbon Steel Bends Removed from Point Lepreau Generating Station”, SMiRT19, Paper Number 1318, August 12-17, 2007, Toronto, Canada.
• Xinjian Duan, Mukesh Jain, Don R. Metzger and David S. Wilkinson, “A unified finite element model for the prediction of failure behaviour for sheet material”, Journal of Pressure Vessel Technology, 2007 November.
• Xinjian Duan, Arnaud Weck, D. S. Wilkinson and D. R. Metzger, “Plastic Limit Analysis of Perforated Material under Finite Deformation”, Journal of Pressure Vessel Technology, 2008 May.
• Xinjian Duan, Michael J. Kozluk, Sandra Pagan, Brian Mills, “Structural Integrity Assessment of steam generator tube by the use of heterogeneous finite element method”, Journal of Pressure Vessel Technology, 2008 November.
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Questions?