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Proceedings Papers

Proceedings Volume Cover
ASME 2023 Pressure Vessels & Piping Conference
July 16–21, 2023
Atlanta, Georgia, USA
Conference Sponsors:
  • Pressure Vessels and Piping Division
ISBN:
978-0-7918-8748-6
Volume 5: Materials & Fabrication

Front Matter

PVP2023 Front Matter
PVP 2023; V005T00A001https://doi.org/10.1115/PVP2023-FM5
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Materials & Fabrication

Advanced and Additive Manufacturing and Material Technologies (Joint with D&A)

Generation of a Fatigue Design Curve Suitable for Use on Additive Manufacture Nuclear Plant Components Produced From 316LN Stainless Steel Using Laser Powder Bed Fusion
William Press, Jay Ferriday, Thomas Jones, Matthew Dear, David Poole
PVP 2023; V005T06A001https://doi.org/10.1115/PVP2023-106379
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Topics: Fatigue design , Lasers , Nuclear power stations , Stainless steel , Fatigue , Stress , Valves , Design , Safety , Testing
Defect Interactions and Effects on Fatigue Behaviors of Additively Manufactured Parts
Shengjia Wu, Jiyuan Cheng, Pingsha Dong, Yuning Zhang, Lunyu Zhang
PVP 2023; V005T06A002https://doi.org/10.1115/PVP2023-107661
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Topics: Additive manufacturing , Fatigue , Fatigue testing

Application of Fracture Mechanics in Failure Assessment

Effect of Compression Precracking on the Near Threshold Fatigue Crack Propagation in an AISI 316L Stainless Steel
Javier Gualdron Plata, Luis Bonazzi, Claudio Ruggieri
PVP 2023; V005T06A003https://doi.org/10.1115/PVP2023-101999
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Topics: Compression , Fatigue , Fatigue cracks , Stainless steel
Development of a New EPRI Elastic-Plastic Fracture Mechanics Handbook
Ted L. Anderson, Robert H. Dodds, Jr., Greg V. Thorwald, Thomas Dessein, Do Jun Shim
PVP 2023; V005T06A004https://doi.org/10.1115/PVP2023-106341
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Topics: Finite element analysis , Fracture mechanics
Validation and Refinement of Statistical-Based Fatigue Crack Initiation Model for Axial Flaws in Zr-Nb Pressure Tubes
Cheng Liu, Douglas Scarth
PVP 2023; V005T06A005https://doi.org/10.1115/PVP2023-106363
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Topics: Fatigue cracks , Pressure , Stress , Zirconium
CMOD Compliance Solution Determined by Stress Intensity Factor for Single Edge Notched Tension Specimens in End-Clamped Conditions
Xian-Kui Zhu
PVP 2023; V005T06A006https://doi.org/10.1115/PVP2023-106906
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Topics: Fracture (Materials) , Fracture toughness , Stress , Tension , Finite element analysis , Displacement , Petroleum industry
Effect of Temperature and Seawater Exposure on Glass/Polyurethane Composite: Experimental and Failure Analysis
Amir Hussain Idrisi, Abdel-Hamid Ismail Mourad
PVP 2023; V005T06A007https://doi.org/10.1115/PVP2023-107568
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Topics: Composite materials , Durability , Failure analysis , Glass , Seawater , Temperature , Urethane elastomers

Code Fatigue Design Criteria and Environmental Effects (Joint with C&S, D&A, HPT)

INCEFA-SCALE (Increasing Safety in NPPs by Covering Gaps in Environmental Fatigue Assessment - Focusing on Gaps Between Laboratory Data and Component-Scale)
Alec McLennan, Román Cicero, Jack Beswick, Stéphan Courtin, Zaiqing Que, Sergio Cicero
PVP 2023; V005T06A008https://doi.org/10.1115/PVP2023-105357
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Topics: Fatigue , Nuclear power stations , Safety , Stainless steel
Assessment of Gage Length Effects on Cylindrical Austenitic Stainless Steel Fatigue Specimens in Air and High-Temperature Water Environment
B. Aydin Baykal, Philippe Spätig, Hans-Peter Seifert
PVP 2023; V005T06A009https://doi.org/10.1115/PVP2023-105910
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Topics: Fatigue , Gages , High temperature , Light water reactors , Stainless steel , Water
INCEFA-SCALE Project – Phases 1 and 2 of Testing Programme
Jack Beswick, Luc Doremus, Oliver Martin, Jean-Christophe Le Roux
PVP 2023; V005T06A010https://doi.org/10.1115/PVP2023-106243
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Topics: Fatigue , Pressurized water reactors , Testing

Composite and Non-Metallic Systems for Pressure Vessels and Piping (Joint with D&A)

Assessing Residual Stresses in PE-RT Pipes and Annealing Temperature Sensitivity Analysis
Arun Biradar, Jorge Palacios Moreno, Pierre Mertiny
PVP 2023; V005T06A011https://doi.org/10.1115/PVP2023-106404
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Topics: Annealing , Pipes , Residual stresses , Sensitivity analysis , Stress , Temperature
Considerations for Graphite in the Design, Qualification and Operation of Advanced Reactor Cores
Owen A. Booler, Mike W. Davies
PVP 2023; V005T06A012https://doi.org/10.1115/PVP2023-106518
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Topics: Design , Graphite
Applicability Analysis of Thermoplastic Material As Liner Pipe for Trenchless Rehabilitation of Thermal Pipelines
Zhongzhen Wang, Jianfeng Shi, Liang Zhang
PVP 2023; V005T06A013https://doi.org/10.1115/PVP2023-107022
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Topics: Engineering plastics , Pipelines , Pipes , Trenchless technology

Creep and Creep-Fatigue Interaction

Creep Property of Type 316Cb Stainless Steel Heater Tube
Jorge Hau, Bing Hsieh, Neil Park
PVP 2023; V005T06A014https://doi.org/10.1115/PVP2023-101378
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Topics: Creep , Stainless steel
LMP and Omega Creep Testing of HPMA Centrifugally Cast Fe-Cr-Ni Alloys
Jorge Hau, Hussain Abdellatif, Neil Park
PVP 2023; V005T06A015https://doi.org/10.1115/PVP2023-101385
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Topics: Alloys , Creep , Ductility , Testing
What Best Correlates to High Temperature Failure: Strain, Stress, Dissipation, or Something Else?
Tianchen Hu, Mark C. Messner
PVP 2023; V005T06A016https://doi.org/10.1115/PVP2023-105949
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Topics: Energy dissipation , Failure , High temperature , Stress , Creep , Damage , Fatigue , Machine learning , Artificial neural networks , Computers
Design of Centrifugally Cast Fe-Cr-Ni Heat-Resistant Alloys Driven by Material Genome Technology
Zhichao Fan, Shulin Xiang, Tao Chen
PVP 2023; V005T06A017https://doi.org/10.1115/PVP2023-106244
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Topics: Alloys , Design , Heat , Machine learning , Phase diagrams , Robots
Exploring 3D X-Ray Diffraction Method to Validate Approaches in Materials Modelling
Ranggi S. Ramadhan, Abdullah Al Mamun, James A. D. Ball, Eralp Demir, David M. Collins, Dylan Agius, Mahmoud Mostavafi, David Knowles
PVP 2023; V005T06A018https://doi.org/10.1115/PVP2023-106248
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Topics: Crystals , Modeling , Plasticity , X-ray diffraction
Uniaxial Creep Properties of 316L Stainless Steel Manufactured by Laser Powder Bed Fusion
Paul Sandmann, Amy J. Milne, Catrin Mair Davies
PVP 2023; V005T06A019https://doi.org/10.1115/PVP2023-106410
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Topics: Creep , Lasers , Stainless steel , Rupture , Electron backscatter diffraction , Temperature , Additive manufacturing , Alloys , Anisotropy , Diffraction
Material Deterioration and Residual Life Evaluation of High Temperature Steam Pipeline
Zhifeng Li, Libin Song, Gang Chen
PVP 2023; V005T06A020https://doi.org/10.1115/PVP2023-106947
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Topics: Creep , Fracture (Materials) , High temperature steam , Pipelines , Mechanical properties , Pipes , Stress , Stress concentration , Emission spectroscopy , Molybdenum
Design Data for Alloy 740H High Temperature Concentrating Solar Power Components
B. Barua, M. C. Messner, R. E. Bass, M. D. McMurtrey
PVP 2023; V005T06A021https://doi.org/10.1115/PVP2023-107318
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Topics: Alloys , Concentrating solar power , Design , High temperature , Fatigue , Stress , Creep , Elastic analysis , Inelastic analysis , Boilers

Cryogenic Pressure Vessels and Piping

Ultra-Thick 9% Nickel Plates for Cryogenic Pressurized Equipments
Sylvain Pillot, Jean-Christophe Milek, Anne Higelin, Ian Zuazo, Natalia Loukachenko
PVP 2023; V005T06A022https://doi.org/10.1115/PVP2023-105721
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Topics: Nickel , Plates (structures) , Manufacturing , Pressure vessels , Alloys , Liquefied natural gas , Stainless steel , Storage tanks , Welded joints , Design
Prediction of Dormancy Time of Cryo-Compressed Hydrogen Tank by Considering Dynamic Thermal Boundary
Yutong Yuan, Zhoutian Ge, Jianfeng Shi
PVP 2023; V005T06A023https://doi.org/10.1115/PVP2023-107131
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Topics: Heat , Hydrogen

Development of Stress Intensity Factor Solutions (Joint with C&S)

Data-Driven Stress Intensity Factor Solutions for Axial Outside Surface Cracks in Thin-Walled Cylinders
Xian-Kui Zhu, Jesse B. Zhu, Andrew J. Duncan
PVP 2023; V005T06A024https://doi.org/10.1115/PVP2023-106161
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Topics: American Petroleum Institute , ASME Boiler and Pressure Vessel Code , Cylinders , Machine learning , Stress , Surface cracks
Development of Stress Intensity Factor Solution for Surface Crack at Nozzle Corner in Reactor Pressure Vessel
Yoshihito Yamaguchi, Hisashi Takamizawa, Jinya Katsuyama, Yinsheng Li
PVP 2023; V005T06A025https://doi.org/10.1115/PVP2023-106210
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Topics: Corners (Structural elements) , Nozzles , Reactor vessels , Stress , Surface cracks
Semi-Analytical Solutions of Fracture Parameters for Curved CT Specimen From CANDU Pressure Tube
Yupeng Cao, Chen Bao
PVP 2023; V005T06A026https://doi.org/10.1115/PVP2023-106414
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Topics: Fracture (Materials) , Fracture toughness , Pressure , Tension

Fatigue and Fracture of Welds and Heat Affected Zones

Post Weld Heat Treatment and Fracture Toughness Evaluation of Electron Beam Welded SA508 Alloys
Adam J. Cooper, Andrew Wisbey, William Kyffin, Thomas Dutilleul, Mike Nunn, Chris Punshon, Mike C. Smith, Ed Pickering, Vasileios Akrivos, Alex Carruthers
PVP 2023; V005T06A027https://doi.org/10.1115/PVP2023-104710
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Topics: Alloys , Cathode ray oscilloscopes , Electron beams , Fracture toughness , Heat treating (Metalworking) , Exploding wires , Vacuum , Welded joints , Testing , Vacuum equipment
Fracture Toughness Estimation of High-Grade Pipeline Steel Girth Weld in Ductile-Brittle Transition Zone
Lele Gui, Tianyu Zhou, Renyang He
PVP 2023; V005T06A028https://doi.org/10.1115/PVP2023-106163
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Topics: Ductile-brittle transition , Fracture toughness , Pipelines , Steel
Investigation on a Method of Counting Low-Cycle Fatigue in Steel Under Crack Closure and Random Variable Amplitude Loading
Jo Watanuki, Tomoya Kawabata, Shunsuke Takagi
PVP 2023; V005T06A029https://doi.org/10.1115/PVP2023-106317
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Topics: Crack propagation , Damage , Flow (Dynamics) , Fracture (Materials) , Low cycle fatigue , Steel

Fitness-for-Service and Failure Assessment

Bridging Length Scales Efficiently Through Surrogate Modelling
David Knowles, Eralp Demir, Mike C. Smith, Maria S. Yankova, Anastasia Vasileiou, Dimitra Rissaki, Paul Wilcox, Dinesh Kumar, Mehdi Mokhtarishirazabad, Mahmoud Mostafavi
PVP 2023; V005T06A030https://doi.org/10.1115/PVP2023-101549
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Topics: Crystals , Machine learning , Metamodeling , Plasticity , Stress , Safety , Simulation , Algorithms , Chaos , Decision making
Fracture Load Predictions in 3D Printed Graphene-Reinforced PLA Notched Specimens Using the Average Strain Energy Density Criterion
Sergio Cicero, Sergio Arrieta
PVP 2023; V005T06A031https://doi.org/10.1115/PVP2023-105442
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Topics: Additive manufacturing , Density , Fracture (Materials) , Fracture (Process) , Graphene , Stress
Estimation of Load Bearing Capacity in 3D Printed PLA Notched Plates Using the Theory of Critical Distances
Sergio Cicero, Sergio Arrieta, Marcos Sánchez
PVP 2023; V005T06A032https://doi.org/10.1115/PVP2023-105581
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Topics: Additive manufacturing , Fracture (Materials) , Load bearing capacity , Plates (structures)
Study on the Effect of Material Constraint on the Stress-Strain Behavior of Pipeline Girth Weld
Yinhui Zhang, Fuxiang Wang, Jian Shuai, Wenbo Xuan, Zhengqiang Lei, Hui Yang, Tieyao Zhang
PVP 2023; V005T06A033https://doi.org/10.1115/PVP2023-106107
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Topics: Pipelines , Stress
Stress Evaluation for Class 2 and 3 Pipes With Reinforcement and Wall-Thinning Using Equivalent Stiffness Concept
Jae-Yoon Kim, Jin-Ha Hwang, Yun-Jae Kim
PVP 2023; V005T06A034https://doi.org/10.1115/PVP2023-106169
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Topics: ASME Boiler and Pressure Vessel Code , Pipes , Stiffness , Stress
Plant Validation of Flaw Evaluation Procedure for Axial PWSCC in Alloy 600 Reactor Vessel Head Penetration Nozzles
Kevin Fuhr, Gideon Schmidt, Glenn White, Craig Harrington
PVP 2023; V005T06A035https://doi.org/10.1115/PVP2023-106451
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Topics: Alloys , Indium alloys , Nozzles , Reactor vessels , Stress corrosion cracking , Water

High Strength Steels for Pressure Vessels and Piping Applications

Validation of Deformation in Crystal Plasticity When Modelling 316H Stainless Steel for Use in Pressure Vessels
Edward W. Horton, Julio C. Spadotto, Albert D. Smith, Jack M. Donoghue, David Knowles, Brian Connolly, Ed J. Pickering, Mahmoud Mostafavi
PVP 2023; V005T06A036https://doi.org/10.1115/PVP2023-101501
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Topics: Crystals , Deformation , Electron backscatter diffraction , Modeling , Plasticity , Pressure vessels , Stainless steel
Age-Hardened Nickel-Base Alloys for Power Piping
John deBarbadillo
PVP 2023; V005T06A037https://doi.org/10.1115/PVP2023-105615
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Topics: Alloys , Nickel , Power Piping Code , Boiler tubes , Boilers , Coal , Corrosion , Cracking (Materials) , Creep , Fracture (Process)
Impact Test Exemption Temperature Reduction of SA-193 B16 Studs for Cold Climate Installations
Yunior Hioe, Fabian Orth, Kenneth Bagnoli, Sabastian Moncayo
PVP 2023; V005T06A038https://doi.org/10.1115/PVP2023-107297
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Topics: Climate , Impact testing , Temperature

In-Service Inspection and Monitoring (Joint with NDE)

Statistical Analysis of Waste Tank Pit Depth Measurements for Corrosion Rate Projections
Stephen Harris, Bruce Wiersma, Jim Elder, Alan Plummer, Ruel Waltz
PVP 2023; V005T06A039https://doi.org/10.1115/PVP2023-101366
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Topics: Corrosion , Statistical analysis , Ultrasonic testing

Leak Before Break

An Approach to Include the Effects of Plasticity in the Calculation of Crack Opening Areas for Through-Wall Cracks Subject to Combined Primary and Secondary Loading
Peter James, William Brayshaw, John Sharples
PVP 2023; V005T06A040https://doi.org/10.1115/PVP2023-106330
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Topics: Fracture (Materials) , Plasticity , Stress , Finite element analysis , Bending (Stress) , Displacement , Failure , Leak-before-break , Membranes
Estimation Scheme for Weld Residual Stress Effect on Crack Opening Displacements
Frederick W. Brust, Edward Punch, Elizabeth Twombly, Jay Wallace
PVP 2023; V005T06A041https://doi.org/10.1115/PVP2023-107396
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Topics: Fracture (Materials) , Stress , Leakage , Finite element analysis , Pipes , Displacement , Leak-before-break , Nozzles , Pipe sizes , Piping systems
Evaluation of the Inherent LBB Behavior of Small-Diameter Class 1 and 2 Nuclear Piping Systems
Elizabeth Twombly, Lance Hill, Gery Wilkowski, Frederick Brust, Bruce Lin, Robert Tregoning
PVP 2023; V005T06A042https://doi.org/10.1115/PVP2023-107685
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Topics: Leak-before-break , Pipes , Piping systems , Stress , Displacement , Fracture (Materials) , Plasticity , Boiling water reactors , Design , Pressurized water reactors

Material Quality and Failure Analysis

Comprehensive Prediction for Temper Embrittlement of Hydrogenation Reactors in Long-Term Service Condition
Juanbo Liu, Zhiyuan Han, Haoyuan Kang, Sheng Chen, Libin Song, Meng He
PVP 2023; V005T06A043https://doi.org/10.1115/PVP2023-105977
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Topics: Embrittlement
Production Low Toughness Case Histories When Manufacturing Low Alloy Steel Pressure Equipment in the Petrochemical Industry
Mitul Dalal, Allie Hosack, Jorge Penso
PVP 2023; V005T06A044https://doi.org/10.1115/PVP2023-106003
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Topics: Alloy steel , Fracture toughness , Manufacturing , Petrochemicals , Pressure equipment , Welding
Effect of Normalizing Temperature on Impact Toughness of ASME SA – 350 LF2 Cl1 Forgings
Ricardo Hernández Soto, José María Gómez de Salazar
PVP 2023; V005T06A045https://doi.org/10.1115/PVP2023-106094
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Topics: Cooling , Forgings (Products) , Fracture toughness , Temperature , Joules , Slabs , Carbon steel , Brittleness , Computer software , Crack propagation
Study on the Effect of Material Characteristic on the Limit Pressure of the Pipeline Girth Weld Containing Welding Defect
Wei Ren, Jian Shuai
PVP 2023; V005T06A046https://doi.org/10.1115/PVP2023-106144
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Topics: Pipelines , Porosity , Pressure , Stress analysis (Engineering) , Welding
Experimental Study of Combined Effects of Liquid-Solid Flow Erosion and Alkaline Acid Water Corrosion in Coal Water Slurry Gasification Unit
Meng He, Sheng Chen, Li Sun, Haoyuan Kang, Zhiyuan Han, Guoshan Xie
PVP 2023; V005T06A047https://doi.org/10.1115/PVP2023-106308
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Topics: Coal , Corrosion , Erosion , Flow (Dynamics) , Fuel gasification , Slurries , Steel , Water
Evaluation of the Fracture Toughness of Short Carbon Fiber Reinforced Thermoplastic Composites
Jianfeng Shi, Xinwei Zong, Weili Jiang, Riwu Yao, Jinyang Zheng
PVP 2023; V005T06A048https://doi.org/10.1115/PVP2023-107021
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Topics: Carbon fibers , Fracture toughness , Thermoplastic composites

Materials and Fabrication for Refining

Fire Assessments in Refineries, 20 Years of API 579 Part 11 Use at TotalEnergies
Charles Le Nevé
PVP 2023; V005T06A049https://doi.org/10.1115/PVP2023-105792
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Topics: American Petroleum Institute , Fire
Reheat Cracking in Welds of 1¼Cr-½Mo Steel Pressure Vessel During Fabrication
Kazuki Suda, Mikihiro Sakata, Shigekazu Miyashita, Hideaki Takauchi
PVP 2023; V005T06A050https://doi.org/10.1115/PVP2023-105856
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Topics: Boron , Cracking (Materials) , Fracture (Process) , Manufacturing , Metals , Pressure vessels , Steel , Welded joints
Evaluation of Cr-Mo Steels Welds Produced by Gas Tungsten Arc Welding With High Silicon Contained Solid Filler Rod to Omit Back Shielding
Atsushi Takahashi, Shinya Isono, Hideaki Takauchi
PVP 2023; V005T06A051https://doi.org/10.1115/PVP2023-106175
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Topics: Fillers (Materials) , Gas tungsten arc welding , Silicon , Steel , Welded joints
Pitting Corrosion Resistance in the Heat-Affected Zone of No-Backing Gas (NBG) Austenitic Stainless Steel Welds
Claire Cary, Jorge Penso, Narasi Sridhar, Carolin Fink
PVP 2023; V005T06A052https://doi.org/10.1115/PVP2023-106333
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Topics: Corrosion resistance , Gas metal arc welding , Heat , Stainless steel , Welded joints
High Temperature Hydrogen Attack – A Case History
Mitul Dalal, Jorge Penso, Jorge Hau
PVP 2023; V005T06A053https://doi.org/10.1115/PVP2023-106449
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Topics: Carbon steel , High temperature , Hydrogen , Steel , Methane , Carbon , Damage , Failure , Fracture (Materials) , Pipes
Welding New Supports to Weld Overlay or Cladding in Existing Hydroprocessing Reactors
Sophia Xiaoxia Zhu, Ryan Kruse, Jorge Penso
PVP 2023; V005T06A054https://doi.org/10.1115/PVP2023-106476
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Topics: Cladding systems (Building) , Overlays (Materials engineering) , Welding
API 582 – 4th Edition – Additions and Clarifications to the 3rd Edition
Richard L. Colwell, William E. Layo
PVP 2023; V005T06A055https://doi.org/10.1115/PVP2023-106482
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Topics: American Petroleum Institute , Welding
Correct Use of Stainless Steel Bolts for Pressure Vessel Applications
Cathleen Shargay, Kuntak Daru, Punita Gala, Anilkumar Panchal
PVP 2023; V005T06A056https://doi.org/10.1115/PVP2023-106489
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Topics: Pressure vessels , Stainless steel , Flanges , Design , Flow charts , Heat treating (Metalworking) , Wireless power transfer
Ethylene Oxide Reactor Engineered Weld Repair Case History
Mitul Dalal, Jorge Penso, Jorge Hau, Steven O’Brien, Tyler London, Cui Er Seow, Vallerio Carollo, Jazeel Chukkan, Yin Jin Janin, John Rothwell, David Howse, Marcello Consonni
PVP 2023; V005T06A057https://doi.org/10.1115/PVP2023-106497
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Topics: Maintenance , Simulation , Stress
Challenges in the Life Management of Steam Methane Reformer (SMR) Components
Alex Bridges, Michael Gagliano, John Siefert, Mitul Dalal, Jorge Penso
PVP 2023; V005T06A058https://doi.org/10.1115/PVP2023-106623
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Topics: Creep , Methane , Steam
New Learnings and Trends on Duplex Stainless Steel 2205 Reactor Effluent Air Coolers
Mitul Dalal, Jorge Penso, Jordan Barrass, Oluwaseun Idowu
PVP 2023; V005T06A059https://doi.org/10.1115/PVP2023-107488
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Topics: Coolers , Cracking (Materials) , Fracture (Process) , Hydrogen , Inspection , Stainless steel
Stress Relaxation Cracking, A Misunderstood Problem in the Process Industry
Jan-Willem Rensman, Mike W. Spindler, Cathleen Shargay
PVP 2023; V005T06A060https://doi.org/10.1115/PVP2023-107793
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Topics: Cracking (Materials) , Damage , Fracture (Process) , Process industries , Relaxation (Physics) , Stress

Materials and Technologies for Nuclear Power Plants

Study on the Effect of Local Segregations on the Charpy Impact Toughness Scatter, in RCC-M Code 18 and 20MND5 (SA 508 Gr3) Steel Grade Forgings for Nuclear Components
Pierre Joly, François Roch, Lingtao Sun, Elizabeth Deneuvillers
PVP 2023; V005T06A061https://doi.org/10.1115/PVP2023-106609
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Topics: Electromagnetic scattering , Forgings (Products) , Fracture toughness , Steel , Forging , Solidification , Brittle fracture , Brittleness , Ductile-brittle transition , Fractography
Study on the Applicability of GTN Model on Fracture Evaluation for Plate Specimen With a Surface Crack Using a BWR Reactor Pressure Vessel Material
Takuya Ogawa, Takahiro Hayashi, Shuichi Yoshida, Masao Itatani, Toshiyuki Saito
PVP 2023; V005T06A062https://doi.org/10.1115/PVP2023-107208
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Topics: Alloys , Boiling water reactors , Damage mechanics , Fracture (Materials) , Fracture mechanics , Reactor vessels , Stress corrosion cracking , Surface cracks
Post Irradiation Examination of Pressurized Water Reactor Stainless Steel Internal Components
Timothy G. Lach, Xiang (Frank) Chen
PVP 2023; V005T06A063https://doi.org/10.1115/PVP2023-107347
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Topics: Irradiation (Radiation exposure) , Nuclear reactors , Pressurized water reactors , Stainless steel

Materials for Hydrogen Service (Joint with C&S)

Challenges in KIH Testing Using WOL Samples for Pipeline Applications
Sebastian Cravero, Mihaela E. Cristea, Marije L. Deul, Carey L. Walters, Martín E. Valdez, Philippe Darcis
PVP 2023; V005T06A064https://doi.org/10.1115/PVP2023-105227
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Topics: Fracture toughness , Hydrogen , Pipelines , Testing
Models for Estimating the Autofrettage Pressure and Residual Stresses in Walls of Type 2 Pressure Vessels
Tsz Ling “Elaine” Tang, Letchuman “Sri” Sripragash, Santosh B. Narasimhachary, Ashok Saxena
PVP 2023; V005T06A065https://doi.org/10.1115/PVP2023-105506
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Topics: Autofrettage , Pressure , Pressure vessels , Residual stresses
Fatigue and Fracture Behavior of Vintage Pipelines in Gaseous Hydrogen Environment
Milan Agnani, Joseph A. Ronevich, Jonathan Parker, Michael Gagliano, Steve Potts, Christopher San Marchi
PVP 2023; V005T06A066https://doi.org/10.1115/PVP2023-105622
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Topics: Fatigue , Fracture (Materials) , Hydrogen , Pipelines , Steel
Effect of High Pressure Hydrogen Gas on Fatigue and Fracture Properties of API X65 LinepIpe Steels
Yoshihiro Nishihara, Hiroshi Okano
PVP 2023; V005T06A067https://doi.org/10.1115/PVP2023-105725
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Topics: American Petroleum Institute , Fatigue , Fracture toughness , High pressure (Physics) , Hydrogen , Steel , Fatigue cracks , Absorption , Fracture (Materials) , Fracture (Process)
Near-Neutral pH Stress Corrosion Crack Test Results and Potential Application to Crack Growth Retardation and Hydrogen Sensitivity in Pipeline Steels
Sanjay Tiku, Lyndon Lamborn, Greg Nelson, Olayinka Tehinse
PVP 2023; V005T06A068https://doi.org/10.1115/PVP2023-105791
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Topics: Fracture (Materials) , Hydrogen , Pipelines , Steel , Stress corrosion cracking
Pipeline Steel Tabular DA/DN Curves With Validations, & Potential Hydrogen Transport Application
James A. Harter, Lyndon Lamborn
PVP 2023; V005T06A069https://doi.org/10.1115/PVP2023-105829
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Topics: Fracture (Materials) , Hydrogen , Pipelines , Steel
Fracture and Fatigue Crack Growth Performance of a Vintage X60 Pipeline Material in Gaseous H2 and Comparison With Wet Sour Service
Bostjan Bezensek, Sarah Hopkin, Tom Martin, Wim Guijt
PVP 2023; V005T06A070https://doi.org/10.1115/PVP2023-105972
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Topics: Fatigue cracks , Fracture (Process) , Fracture toughness , Hydrogen , Pipelines , Wireless power transfer
The Role of Internal vs External Hydrogen on Fracture Resistance of Austenitic Stainless Steels
Joseph A. Ronevich, Dorian Balch, Chris San Marchi
PVP 2023; V005T06A071https://doi.org/10.1115/PVP2023-106086
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Topics: Fracture (Materials) , Fracture (Process) , Hydrogen , Stainless steel , Temperature , Alloys , Pipes , Pressure , Testing , ASTM International
Fatigue Crack Growth Rate Study of New X52 Line Pipe Steel in Hydrogen Blended Methane
Ashwini Chandra, Ramgopal Thodla, Siari Sosa
PVP 2023; V005T06A072https://doi.org/10.1115/PVP2023-106091
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Topics: Fatigue cracks , Hydrogen , Hydrogen embrittlement , Methane , Pipes , Steel
Fatigue Crack Initiation and Fatigue Life Testing of High-Strength Austenitic Stainless Steel Tubing With Internal Hydrogen
Chris San Marchi, Joseph A. Ronevich, Johan Pohl, Severin Ramseyer, Davide Cortinovis, Stefan Eckmann
PVP 2023; V005T06A073https://doi.org/10.1115/PVP2023-106413
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Topics: Fatigue cracks , Fatigue life , Fatigue testing , High pressure (Physics) , Hydrogen , Stainless steel , Testing , Tubing
Effect of Hydrogen Partial Pressure on Fatigue Crack Growth Rates of Low Alloy, Quenched and Tempered Steels
Paolo Bortot, Matteo Ortolani, Christopher San Marchi, Joseph Ronevich
PVP 2023; V005T06A074https://doi.org/10.1115/PVP2023-106417
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Topics: Alloys , Design , Fatigue cracks , Hydrogen , Pressure , Pressure vessels , Steel , Testing
Fatigue and Fracture Behavior of Aluminum Alloys in Gaseous Hydrogen
Rakish Shrestha, Joseph A. Ronevich, Thorsten Michler, Chris San Marchi
PVP 2023; V005T06A075https://doi.org/10.1115/PVP2023-106442
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Topics: Aluminum alloys , Fatigue , Fatigue cracks , Fracture (Materials) , Fracture (Process) , Hydrogen
High Strength Ferritic Steels for Hydrogen Service
Matteo Ortolani, Paolo Bortot, Michele Sileo, Erick Escorza, Matthew Connolly, Ashwini Chandra
PVP 2023; V005T06A076https://doi.org/10.1115/PVP2023-106477
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Topics: Alloys , Hydrogen , Steel
Combined Hydrogen Embrittlement and Strain Rate Sensitivity of Annealed and Forged 304L Steel
Robert W. Wheeler, Joseph Ronevich, Chris San Marchi, James W. Foulk, Mazen Diab, Coleman Alleman
PVP 2023; V005T06A077https://doi.org/10.1115/PVP2023-107475
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Topics: Hydrogen embrittlement , Stainless steel , Steel , Hydrogen , Flow (Dynamics) , Corrosion resistance , Manifolds , Pressure vessels , Stress , Tensile strength

Mechanical Properties of Nuclear Graphite and Their Implementation in Codes and Standards (Joint with CS)

Effect of Differential Oxidation of Graphite Crystallites on the Elastic Moduli of Nuclear Graphites
James B. Spicer, Cristian I. Contescu, José David Arregui-Mena, Lianshan Lin, Ellen Berry, Nidia C. Gallego
PVP 2023; V005T06A078https://doi.org/10.1115/PVP2023-105922
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Topics: Elastic moduli , Graphite , Oxidation
Graphite Material Model Calibration for Conceptual Design and Core Configuration Studies
Amanda Young, Graeme Horne, Richard Gray, Daniel Kent, Mark Joyce
PVP 2023; V005T06A079https://doi.org/10.1115/PVP2023-106362
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Topics: Calibration , Conceptual design , Finite element analysis , Graphite
Structural Integrity Assessments of Nuclear Graphite: Managing Uncertainty and Variability
Graeme Horne, Amanda Young, Daniel Kent, Richard Gray, Mark Joyce
PVP 2023; V005T06A080https://doi.org/10.1115/PVP2023-106367
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Topics: Graphite , Uncertainty
Graphite-Molten Salt Considerations for Components in Nuclear Applications
Nidia C. Gallego, Josina W. Geringer, William Windes
PVP 2023; V005T06A081https://doi.org/10.1115/PVP2023-106613
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Topics: Graphite

Pipeline Integrity

Comparison of Fatigue Models in API 1183 for Predicting Fatigue Life of Pipeline Dents
Xian-Kui Zhu
PVP 2023; V005T06A082https://doi.org/10.1115/PVP2023-102043
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Topics: American Petroleum Institute , Damage , Fatigue , Fatigue life , Pipelines
Pipeline Stacked Crack Interaction Burst Pressure Analysis Using 3-D Crack Meshes
Ryan Holloman, Greg Thorwald, Michael Turnquist, Mark Neuert
PVP 2023; V005T06A083https://doi.org/10.1115/PVP2023-102314
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Topics: Finite element analysis , Fracture (Materials) , Pipelines , Pressure
Effects of Fatigue Parameters on Fatigue Crack Growth Rate of Pipe Steels and Girth Weld
Dong-Yeob Park, Jie Liang
PVP 2023; V005T06A084https://doi.org/10.1115/PVP2023-105466
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Topics: Fatigue , Fatigue cracks , Pipelines , Pipes , Steel , Welded joints
Convolutional Neural Network Models for Reconstruction and Sizing of Three-Dimensional Metal-Loss Defects in Oil and Gas Pipelines Based on Magnetic Flux Leakage Signals
Yufei Shen, Wenxing Zhou
PVP 2023; V005T06A085https://doi.org/10.1115/PVP2023-106001
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Topics: Artificial neural networks , Corrosion , Leakage , Magnetic flux , Metals , Neural network models , Pipelines , Signals
Effect of Stress-Strain Curve on Burst Pressure Prediction for Pipelines With and Without Corrosion Defects
Gang Tao
PVP 2023; V005T06A086https://doi.org/10.1115/PVP2023-106088
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Topics: Corrosion , Finite element analysis , Pipelines , Pressure , Stress-strain curves
Artificial Neural Networks for Predicting Burst Strength of Thick and Thin-Walled Pressure Vessels
William R. Johnson, Xian-Kui Zhu, Robert Sindelar, Bruce Wiersma
PVP 2023; V005T06A087https://doi.org/10.1115/PVP2023-106471
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Topics: Artificial neural networks , Pipelines , Pressure , Pressure vessels
Corrosion Assessment Models for Predicting Remaining Strength of Corroded Thick-Walled Pipelines
Xian-Kui Zhu, Bruce Wiersma, William R. Johnson, Robert Sindelar
PVP 2023; V005T06A088https://doi.org/10.1115/PVP2023-106911
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Topics: Corrosion , Pipelines

Probabilistic Assessment of Failure (Joint with C&S)

Potential of Variational Auto-Encoder as an Alternative to a Welding Residual Stress Profile Sampling Model
Changsik Oh, Jin-Gyum Kim, Sung-Sik Kang, Sangmin Lee
PVP 2023; V005T06A089https://doi.org/10.1115/PVP2023-106214
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Topics: Stress , Welding
Evaluation of Crack Initiation Probability by FERMAT Code in Conformity With the Procedure by a Japanese Industrial PFM Guideline
Satoshi Miyashiro, Takayuki Sakai, Masaki Nagai, Masato Yamamoto
PVP 2023; V005T06A090https://doi.org/10.1115/PVP2023-106288
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Topics: Fracture (Materials) , Probability
Linking Deterministic Leak-Before-Break to Probabilistic Framework Using xLPR
M. Uddin, N. Cofie, D. Dedhia, G. Dominguez, C. Harrington, N. Glunt, D. J. Shim
PVP 2023; V005T06A091https://doi.org/10.1115/PVP2023-106715
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Topics: Leak-before-break , Fracture mechanics , Acceptance criteria , Computer software , Design for Manufacturing , Dynamic flowgraph methodology , Metals , Nozzles , Pipe sizes , Piping systems

Small-Scale and Miniature Mechanical Testing (Joint with C&S)

Mechanical Behavior of 316L-IN718 Interface Produced by Directed Energy Deposition Investigated Using Miniaturized Specimens
Sylwia Rzepa, Matouš Uhlík, Daniel Melzer, Martina Koukolíková, Pavel Konopík, Ján Džugan
PVP 2023; V005T06A092https://doi.org/10.1115/PVP2023-106298
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Topics: Additive manufacturing , Diffusion (Physics) , Equipment performance , Failure , Fractography , Fracture (Materials) , Fracture (Process) , Functionally graded materials , Mechanical behavior , Scanning electron microscopes

Structural Integrity for Spent Fuel Canisters

Fracture Mechanics Analysis of Multi-Purpose Canister Under Impact Loading
Jae-Yoon Jeong, Cheol-Ho Kim, Yun-Jae Kim, Chang-Young Oh, Hune-Tae Kim
PVP 2023; V005T06A093https://doi.org/10.1115/PVP2023-105983
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Topics: Accidents , Failure , Fracture (Materials) , Fracture mechanics , Stress , American Petroleum Institute , Fitness-for-service , Materials properties , Nuclear power , Radioactive wastes

Welding Residual Stress and Distortion Simulation and Measurement

Modeling of Hardness and Welding Residual Stress in Type 316 Stainless Steel Components for the Assessment of Stress Corrosion Cracking
Suo Li, Yoshihito Yamaguchi, Jinya Katsuyama, Yinsheng Li, Dean Deng
PVP 2023; V005T06A094https://doi.org/10.1115/PVP2023-103449
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Topics: Finite element analysis , Modeling , Stainless steel , Stress , Stress corrosion cracking , Welding
Experimental Investigation on Temperature Field Evolution of P280GH Pipeline in Butt Welding Process
Maiwen Hu, Hao Su, Yanping Wang, Zelin Han, Yan Song
PVP 2023; V005T06A095https://doi.org/10.1115/PVP2023-106279
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Topics: Arc welding , Butt welding , Pipelines , Temperature , Welding
An Experimental and Numerical Modelling for SMAW
Sébastien Gallée, Florence Gommez, Nicolas Sallez, Alexandre Brosse
PVP 2023; V005T06A096https://doi.org/10.1115/PVP2023-106309
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Topics: Computer simulation , Electrodes , Manufacturing , Modeling , Residual stresses , Shapes , Simulation , Steel , Stress , Temperature
NeT Project Task Group 8 – An International Benchmark on Residual Stress Assessment for Welding Repair With Dissimilar Materials – First Phase Results
V. Robin, J. Draup, M. C. Smith, A. Vasileiou, V. Akrivos, R. C. Wimpory, L. Depradeux, A. Brosse, D. Gallitelli, F. Hosseinzadeh, C. E. Truman, S. Pascal, S. Hendili, J. Delmas, C. Ohms
PVP 2023; V005T06A097https://doi.org/10.1115/PVP2023-107179
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Topics: Maintenance , Project tasks , Stress , Welding
Modelling of Residual Stresses in Multi-Pass Pipe Circumferential Butt Welds Made of Austenitic Stainless Steel to Provide Indicators for SCC Risk Classification
V. Robin, S. Hendili, J. Delmas, S. Hilal, D. Iampietro, M. Abbas, S. Jutteau
PVP 2023; V005T06A098https://doi.org/10.1115/PVP2023-107448
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Topics: Modeling , Pipes , Residual stresses , Risk , Stainless steel , Stress , Welded joints , Welding , Compression , Computer simulation
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