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In This Volume
Volume 6B: Materials and Fabrication
Materials and Fabrication
Fitness-for-Service and Failure Assessment
Creep Strength Evaluation of a New and a Used Grade 91 Welded Joints by Using a Miniature Specimen
PVP 2018; V06BT06A001https://doi.org/10.1115/PVP2018-84010
Topics:
Creep
,
Welded joints
,
Base metals
,
Metals
,
Damage
,
Stress
,
Finite element analysis
,
Power stations
,
Steam
,
Testing
Stress Intensity Factors for Circular-Arc Cracks in Plates
PVP 2018; V06BT06A003https://doi.org/10.1115/PVP2018-84502
Topics:
Fracture (Materials)
,
Plates (structures)
,
Stress
,
Welded joints
,
Shells
,
Pipes
,
Pressure
,
Surface cracks
,
Cylinders
,
Finite element analysis
Leak Before Break
Probabilistic Leak Before Break
PVP 2018; V06BT06A005https://doi.org/10.1115/PVP2018-84056
Topics:
Leak-before-break
,
Fracture toughness
,
Probability
,
Yield stress
,
Failure
,
Fracture (Materials)
,
Leakage
,
Computer software
,
Gaussian distribution
,
Matlab
Simplified LBB Guidance: Stage 1 — Development of a New Software Tool and Initial Scoping Calculations
PVP 2018; V06BT06A008https://doi.org/10.1115/PVP2018-84926
Topics:
Computer software
,
Pipes
,
Fracture (Materials)
,
Design
,
Engineers
,
Fracture toughness
,
Leak-before-break
,
Materials properties
,
Stainless steel
,
Stress
Materials and Technologies for Nuclear Power Plants
Formulation of the Stress Corrosion Crack Growth Rates for the Practical Use in the Integrity Assessment of Nuclear Reactor Components
PVP 2018; V06BT06A010https://doi.org/10.1115/PVP2018-84213
Topics:
Boiling water reactors
,
Fracture (Materials)
,
Heat
,
Nuclear reactors
,
Pipes
,
Stainless steel
,
Stress
,
Stress corrosion cracking
Evaluation of Stress Rupture Factors for Grade 91 Weldments
PVP 2018; V06BT06A014https://doi.org/10.1115/PVP2018-84572
Topics:
Rupture
,
Stress
,
Creep
,
Base metals
,
Failure
,
Metals
,
Filler metals
,
Fracture (Materials)
,
Fracture (Process)
,
Heat
Assessment of Creep Crack Growth Rates for Grade 91 Weld Joint at 550°C
PVP 2018; V06BT06A015https://doi.org/10.1115/PVP2018-84604
Topics:
Creep
,
Fracture (Materials)
,
Metals
,
Temperature
,
Base metals
,
Design
,
Heat
Measurements of Stress During Thermal Shock in Clad Reactor Pressure Vessel Material Using Time-Resolved In-Situ Synchrotron X-Ray Diffraction
Sam Oliver, Chris Simpson, Andrew James, Christina Reinhard, David Collins, Martyn Pavier, Mahmoud Mostafavi
PVP 2018; V06BT06A017https://doi.org/10.1115/PVP2018-84676
Topics:
Reactor vessels
,
Stress
,
Thermal shock
,
X-ray diffraction
,
Alloys
,
Cladding systems (Building)
,
Accidents
,
Coolants
,
Cooling
,
Diamonds
Derivation of Transverse Tensile Properties of Alloy 690 Steam Generator Tubes Using Ring-Tensile Specimen and Finite Element Analysis
PVP 2018; V06BT06A020https://doi.org/10.1115/PVP2018-84828
Topics:
Alloys
,
Boilers
,
Finite element analysis
,
Tensile strength
,
Displacement
,
Optimization
,
Pressurized water reactors
,
Stress
,
Accidents
,
Bending (Stress)
A Study on the Pressure-Temperature Limit Curve Under High Cooling Rate for the Reactor Using Finite Element Method
PVP 2018; V06BT06A021https://doi.org/10.1115/PVP2018-84850
Topics:
Cooling
,
Finite element methods
,
Pressure
,
Temperature
,
ASME Standards
,
Nuclear power stations
,
Accidents
,
Finite element analysis
,
Safety
,
Thermal shock
Effects of Strain Amplitude and Loading Path on Cyclic Behavior and Martensitic Transformation of 304 Stainless Steel
PVP 2018; V06BT06A022https://doi.org/10.1115/PVP2018-84888
Topics:
Martensitic transformations
,
Stainless steel
,
Hardening
,
Cycles
,
Deformation
,
Stress
,
Low cycle fatigue
,
Symmetry (Physics)
,
Temperature
Hardness and Microstructural Evolution of a JRQ A533 Cl.1 Steel Submitted to Thermal Annealing
A. Liliana Medina-Almazán, Lizandra S. Ovando-Ramírez, Rogelio Hernández-Callejas, Gonzalo Galicia-Aguilar
PVP 2018; V06BT06A023https://doi.org/10.1115/PVP2018-84916
Topics:
Annealing
,
Steel
,
Density
,
Ferrites (Magnetic materials)
,
Temperature
,
Vickers hardness testing
,
Alloys
,
Copper
,
Diffusion (Physics)
,
Dislocations
Materials for Hydrogen Service (Joint With C&S)
Methods of Material Testing in High-Pressure Hydrogen Environment and Evaluation of Hydrogen Compatibility of Metallic Materials: Current Status in Japan
Hideo Kobayashi, Hiroshi Kobayashi, Takeru Sano, Takashi Maeda, Hiroaki Tamura, Ayumu Ishizuka, Mitsuo Kimura, Nobuhiro Yoshikawa, Takashi Iijima, Junichiro Yamabe, Saburo Matsuoka, Hisao Matsunaga
PVP 2018; V06BT06A026https://doi.org/10.1115/PVP2018-84112
Topics:
High pressure (Physics)
,
Hydrogen
,
Materials testing
,
Testing
,
Automobiles
,
Databases
,
Fuel cell vehicles
Oxygen Impurity Effects on Hydrogen Assisted Fatigue and Fracture of X100 Pipeline Steel
Joseph Ronevich, Chris San Marchi, Robert Kolasinski, Konrad Thurmer, Norm Bartelt, Farid El Gabaly, Brian Somerday
PVP 2018; V06BT06A027https://doi.org/10.1115/PVP2018-84163
Topics:
Fatigue
,
Fracture (Materials)
,
Hydrogen
,
Oxygen
,
Pipelines
,
Steel
,
Stress
,
Fracture toughness
,
Fatigue cracks
,
Pressure
Effect of High Pressure Gaseous Hydrogen on Fatigue Properties of SUS304 and SUS316 Austenitic Stainless Steel
PVP 2018; V06BT06A029https://doi.org/10.1115/PVP2018-84267
Topics:
Fatigue properties
,
High pressure (Physics)
,
Hydrogen
,
Stainless steel
,
Fatigue life
,
Temperature
,
Fatigue limit
,
Stress
,
Testing
,
Compression
Transient Hydrogen Diffusion/Elastoplastic Coupling Analysis for Predicting Fatigue Crack Growth Acceleration of Low-Carbon Steel in Gaseous Hydrogen
PVP 2018; V06BT06A031https://doi.org/10.1115/PVP2018-84390
Topics:
Carbon
,
Diffusion (Physics)
,
Fatigue cracks
,
Hydrogen
,
Steel
,
Transients (Dynamics)
,
Carbon steel
,
Computer software
,
Evaluation methods
,
Fatigue properties
Temperature Dependence of Fatigue Crack Growth in Low-Alloy Steel Under Gaseous Hydrogen
Osamu Takakuwa, Saburo Matsuoka, Saburo Okazaki, Michio Yoshikawa, Junichiro Yamabe, Hisao Matsunaga
PVP 2018; V06BT06A033https://doi.org/10.1115/PVP2018-84438
Topics:
Alloys
,
Fatigue cracks
,
Hydrogen
,
Steel
,
Temperature effects
,
Temperature
,
Binding energy
,
Dislocations
,
Pressure
,
ASTM International
Influence of 70 MPa Hydrogen Gas on SUS 630 From 77 K to 373 K by Simple Testing Method
PVP 2018; V06BT06A035https://doi.org/10.1115/PVP2018-84462
Topics:
Hydrogen
,
Testing
,
Helium
,
Pressure
,
Stress
,
Embrittlement
,
Tensile strength
Influence of Hydrogen and Oxygen Impurity Content in a Natural Gas / Hydrogen Blend on the Toughness of an API X70 Steel
PVP 2018; V06BT06A036https://doi.org/10.1115/PVP2018-84658
Topics:
American Petroleum Institute
,
Fracture toughness
,
Hydrogen
,
Natural gas
,
Oxygen
,
Steel
,
Carbon
,
Design
,
Displacement
,
Emissions
Hydrogen-Assisted Fatigue Crack Propagation in a Commercially Pure BCC Iron
Domas Birenis, Yuhei Ogawa, Hisao Matsunaga, Osamu Takakuwa, Junichiro Yamabe, Øystein Prytz, Annett Thøgersen
PVP 2018; V06BT06A039https://doi.org/10.1115/PVP2018-84783
Topics:
Fatigue cracks
,
Hydrogen
,
Iron
,
Fracture (Materials)
,
Fracture (Process)
,
Dislocations
,
Deformation
,
Electron microscopy
,
Fatigue
,
Plasticity
Orientation Dependence of Hydrogen Accelerated Fatigue Crack Growth Rates in Pipeline Steels
PVP 2018; V06BT06A040https://doi.org/10.1115/PVP2018-84835
Topics:
Fatigue cracks
,
Hydrogen
,
Pipelines
,
Steel
,
Fracture (Materials)
,
Fracture toughness
,
High strength steel
,
Hydrogen embrittlement
,
Testing
Global Harmonization of Fatigue Life Testing in Gaseous Hydrogen
Chris San Marchi, Junichiro Yamabe, Martina Schwarz, Hisao Matsunaga, Stefan Zickler, Saburo Matsuoka, Hideo Kobayashi
PVP 2018; V06BT06A041https://doi.org/10.1115/PVP2018-84898
Topics:
Fatigue life
,
Hydrogen
,
Testing
,
Fatigue
,
High pressure (Physics)
,
Pressure
,
Temperature
,
Carbon
,
Electric vehicles
,
Fracture (Materials)
Mechanistic Modelling of Deformation and Fracture
Advanced Assessment of Ductile Fracture Behaviour in Dissimilar Metal Welds Using X-Ray Tomography
PVP 2018; V06BT06A042https://doi.org/10.1115/PVP2018-84014
Topics:
Ductile fracture
,
Metals
,
Welded joints
,
X-rays
,
Fracture (Materials)
,
Alloys
,
Damage
,
Fracture toughness
,
Fillers (Materials)
,
Finite element analysis
Challenges Associated With the Quantitative Analysis of Ductile Damage Using X-Ray Computed Tomography
PVP 2018; V06BT06A043https://doi.org/10.1115/PVP2018-84023
Topics:
Computerized tomography
,
Damage
,
Failure
,
Fracture (Materials)
,
Fracture (Process)
,
Forging
,
Fracture toughness
,
Hot pressing
,
Oxygen
,
Stainless steel
Using Virtual Testing to Study the Influence of Constraint on Fracture Properties
PVP 2018; V06BT06A045https://doi.org/10.1115/PVP2018-84603
Topics:
Damage
,
Failure
,
Fracture (Materials)
,
Fracture toughness
,
Stress
,
Tension
,
Testing
Limits of Applicability of the Notch Failure Assessment Diagram
PVP 2018; V06BT06A047https://doi.org/10.1115/PVP2018-85062
Topics:
Failure
,
Damage
,
Fatigue cracks
,
Fracture (Materials)
,
Modeling
,
Porosity
A Local Approach to Assess Effects of Specimen Geometry on Cleavage Fracture Toughness in Reactor Pressure Vessel Steels
PVP 2018; V06BT06A048https://doi.org/10.1115/PVP2018-85063
Topics:
Fracture toughness
,
Geometry
,
Reactor vessels
,
Steel
,
Fracture (Materials)
,
Stress
,
ASTM International
,
Dimensions
,
Failure
,
Finite element model
Pipeline Integrity
Development of a Closed-Form Expression for the Assessment of the Integrity of Internally Corroded Pipelines
PVP 2018; V06BT06A049https://doi.org/10.1115/PVP2018-84020
Topics:
Pipelines
,
Carbon steel
,
Corrosion
,
Pipes
,
Pressure
,
Failure
,
Finite element analysis
,
Fluids
,
Hydrostatic pressure
,
Modeling
Relationship of Fracture Behaviours Between Full-Scale Pipe Bending and Small-Scale Toughness Tests
Dong-Yeob Park, Hisakazu Tajika, Takahiro Sakimoto, Satoshi Igi, James A. Gianetto, Jie Liang, Jean-Philippe Gravel, Joe Kondo
PVP 2018; V06BT06A050https://doi.org/10.1115/PVP2018-84138
Topics:
Fracture (Materials)
,
Fracture toughness
,
Pipe bending
,
Pipes
,
Electrical discharge machining
,
Deformation
,
Design
,
Displacement
,
Heat
,
Manufacturing
Microstructure and Tensile Properties of a 1.25Cr-0.5Mo Main Steam Pipe After Long-Term Service
PVP 2018; V06BT06A051https://doi.org/10.1115/PVP2018-84185
Topics:
Pipes
,
Steam
,
Tensile strength
,
Microhardness
,
Yield stress
,
Base metals
,
Brittleness
,
Failure
,
Fracture (Materials)
,
Fracture (Process)
Limit Strains of X70 Pipes With a Semi-Elliptical Crack Based on Initiation and Ductile Tearing Criteria
PVP 2018; V06BT06A052https://doi.org/10.1115/PVP2018-84641
Topics:
Fracture (Materials)
,
Pipes
,
Pipelines
,
Pressure
,
Design
,
Displacement
,
Failure
,
Finite element analysis
,
Surface cracks
,
Tension
Interaction of Longitudinal Corrosion Defects on a Pipeline
PVP 2018; V06BT06A053https://doi.org/10.1115/PVP2018-84773
Topics:
Corrosion
,
Pipelines
,
Finite element analysis
,
Failure
,
Metals
,
Pipe joints
,
Probability
Assessment Methods and Technical Challenges of Remaining Strength for Corrosion Defects in Pipelines
PVP 2018; V06BT06A054https://doi.org/10.1115/PVP2018-84976
Topics:
Corrosion
,
Pipelines
,
Pipes
,
Computer simulation
,
Failure
,
Flow (Dynamics)
,
Metals
,
Pressure
,
Steel
,
Testing
Strain Capacity Investigation on Grade X70 High Strain Line Pipe With Girth Weld
PVP 2018; V06BT06A055https://doi.org/10.1115/PVP2018-85059
Topics:
Pipes
,
Buckling
,
Pipelines
,
Deformation
,
Gas metal arc welding
,
Gas tungsten arc welding
,
Pipe bending
,
Base metals
,
Design
,
Electrical discharge machining
Numerical Calculation of Fatigue Crack Growth for the Structures of Elbow and Tee Pipe Based on RCC-MR A16 Code
PVP 2018; V06BT06A056https://doi.org/10.1115/PVP2018-85061
Topics:
Fatigue cracks
,
Pipes
,
Pipeline systems
,
Stress
,
Coolants
,
Crack propagation
,
Fatigue
,
Flow-induced vibrations
,
Fracture (Materials)
,
High pressure (Physics)
Probabilistic Assessment of Failure (Joint With C&S)
Reversing the Chell Model to Predict Using Monte Carlo Simulations the Original Fracture Toughness of Ferritic Steels
PVP 2018; V06BT06A057https://doi.org/10.1115/PVP2018-84287
Topics:
Engineering simulation
,
Fracture toughness
,
Simulation
,
Steel
,
Fracture (Process)
,
Stress
,
ASTM International
,
Brittle fracture
,
Cycles
,
Fatigue
Numerical Study on the Creep Strain Characteristics for TMSR Reactor Coolant Piping Under Thermal Loading
PVP 2018; V06BT06A058https://doi.org/10.1115/PVP2018-84333
Topics:
Creep
,
Nuclear reactor coolants
,
Pipes
,
Fatigue
,
Cycles
,
Damage
,
Stress
,
Computational methods
,
Design
,
Design methodology
Evaluation of Risk From Carbon Macro-Segregation in Large Pressure Retaining Forged Nuclear Components
PVP 2018; V06BT06A059https://doi.org/10.1115/PVP2018-84620
Topics:
Carbon
,
Pressure
,
Risk assessment
,
Pressurized water reactors
,
Forgings (Products)
,
Fracture (Materials)
,
Fracture (Process)
,
Risk
,
Failure
,
Safety
Investigation of the Fatigue Behavior of Austenitic Stainless Steels and Their Welds for Reactor Internals Under Combined Low Cycle (LCF), High Cycle (HCF) and Very High Cycle (VHCF) Operational Loading Conditions
Xaver Schuler, Tim Schopf, Tilmann Beck, Marek Smaga, Tobias Daniel, Jürgen Rudolph, Birgit Buchholz
PVP 2018; V06BT06A060https://doi.org/10.1115/PVP2018-85028
Topics:
Cycles
,
Fatigue
,
High cycle fatigue
,
Stainless steel
,
Welded joints
,
Stress
,
Design
,
Damage
,
Deformation
,
Endurance limit
Small-Scale Testing and Statistical Analysis of Mechanical Properties
Combined Statistical-Mechanical Characterization of a Next Generation Textured PTFE for Extreme Environments
PVP 2018; V06BT06A061https://doi.org/10.1115/PVP2018-84039
Topics:
Ceramics
,
Compressibility
,
Experimental design
,
Flanges
,
Gages
,
Gaskets
,
Honeycomb structures
,
Leakage
,
Optimization
,
Particulate matter
Creep Properties Assessment of Materials by a Small Cantilever Beam Specimen
PVP 2018; V06BT06A062https://doi.org/10.1115/PVP2018-84135
Topics:
Cantilever beams
,
Creep
,
Stress
,
Displacement
,
Steel
Assessment of Heat-to-Heat Variation of Gr.91 Boiler Pipings by Small Punch Creep Test
PVP 2018; V06BT06A063https://doi.org/10.1115/PVP2018-84153
Topics:
Boilers
,
Creep
,
Heat
,
Testing
,
Rupture
,
Deformation
,
Disks
,
Power stations
,
Steel
,
Stress
Effective Portion of Sample Taken From USC Boiler Pipes to Consider Heat-to-Heat Variation of Creep
PVP 2018; V06BT06A064https://doi.org/10.1115/PVP2018-84173
Topics:
Boilers
,
Creep
,
Heat
,
Pipes
,
Base metals
,
Welded joints
,
Density
,
Power stations
,
Steel
Reconstituted Mini Tensile Specimens
PVP 2018; V06BT06A065https://doi.org/10.1115/PVP2018-84760
Topics:
Clamps (Tools)
,
Cutting
,
Fracture (Materials)
,
Fracture (Process)
,
Fracture toughness
,
Interpolation
,
Lasers
,
Machinery
,
Microscopes
,
Molybdenum
The Size Effect on J-R Curve for Construction Steels and its Prediction by Simplified Mechanical Model
PVP 2018; V06BT06A066https://doi.org/10.1115/PVP2018-84866
Topics:
Construction
,
Size effect
,
Steel
,
Mechanical properties
,
Alloys
,
Fracture toughness
,
Damage
,
Evaluation methods
,
Fracture (Materials)
,
Fracture (Process)
Structural Integrity for Spent Fuel Canisters
Crack Growth Rate Testing of Bolt-Load Compact Tension Specimens Under Chloride-Induced Stress Corrosion Cracking Conditions in Spent Nuclear Fuel Canisters
PVP 2018; V06BT06A068https://doi.org/10.1115/PVP2018-84753
Topics:
Fracture (Materials)
,
Spent nuclear fuels
,
Stress
,
Stress corrosion cracking
,
Tension
,
Testing
,
Temperature
,
ASTM International
,
Seas
,
Bearings
Uncertainty Quantification of Material Degradation Data and Failure Models
A Multiple-Loading Single-Sample Exploratory Method of Estimating Damage in Polymer Composite Materials Through Analysis of X-Ray Tomography Images
PVP 2018; V06BT06A072https://doi.org/10.1115/PVP2018-84411
Topics:
Damage
,
Polymer composites
,
X-rays
,
Fatigue
,
Computerized tomography
,
Fibers
,
Image processing
,
Imaging
,
Manufacturing
StrainLife: Efficient Fatigue Life Data Generation for an Enhanced Ageing Assessment of Metallic Components
Klaus Heckmann, Jürgen Sievers, Tim Schopf, Xaver Schuler, Ruth de Acosta, Peter Starke, Christian Boller, Michael Jamrozy, Marina Knyazeva, Frank Walther
PVP 2018; V06BT06A073https://doi.org/10.1115/PVP2018-84538
A Nonlinear Least Squares Logistic Fit Approach to Quantifying Uncertainty in Fatigue Stress-Life Models and an Application to Plain Concrete
PVP 2018; V06BT06A075https://doi.org/10.1115/PVP2018-84739
Topics:
Concretes
,
Fatigue
,
Stress
,
Uncertainty
,
Algorithms
,
Cycles
,
Endurance limit
,
Engineering models
,
Failure
,
Fatigue life
The Role of Uncertainty in Machine Learning As an Element of Control for Material Systems and Structures
PVP 2018; V06BT06A077https://doi.org/10.1115/PVP2018-84930
Topics:
Machine learning
,
Uncertainty
,
Composite materials
,
Physics
,
Aircraft
,
Artificial neural networks
,
Control systems
,
Failure
,
Algorithms
,
Density
Welding Residual Stress and Distortion Simulation and Measurement
Experimental Study of the Weld Residual Stress in Manually and Mechanically Fabricated Dissimilar Metal Weld
PVP 2018; V06BT06A078https://doi.org/10.1115/PVP2018-84136
Topics:
Metals
,
Stress
,
Maintenance
,
Welding
,
Alloys
,
Testing
,
Carbon
,
Fillers (Materials)
,
Flow (Dynamics)
,
Nondestructive evaluation
A Designer-Driven Welding Simulation Analysis to Define the Best Weld Sequence for Panel Structures
PVP 2018; V06BT06A079https://doi.org/10.1115/PVP2018-84207
Topics:
Simulation analysis
,
Welding
,
Stiffness
,
Engineers
,
Algorithms
,
Computer simulation
,
Design
,
Optimization
,
Physics
,
Simulation
Determination of Residual Stress Directionality by Instrumented Indentation Testing Using Anisotropic Indenter
PVP 2018; V06BT06A080https://doi.org/10.1115/PVP2018-84846
Topics:
Anisotropy
,
Stress
,
Testing
,
Wedges
,
Algorithms
,
Cutting
,
Electronic components
,
Failure
,
Finite element analysis
,
Fracture (Materials)
Parameter Study of a Thermal Analysis of a Bead-on-Plate Weld
PVP 2018; V06BT06A083https://doi.org/10.1115/PVP2018-84999
Topics:
Cycles
,
Electrical conductivity
,
Failure
,
Geometry
,
Grain size
,
Heat
,
High temperature
,
Martensitic steel
,
Simulation
,
Specific heat
Prediction of Residual Stresses in a Multipass Pipe Weld by a Novel 3D Finite Element Approach
PVP 2018; V06BT06A084https://doi.org/10.1115/PVP2018-85044
Topics:
Finite element analysis
,
Pipes
,
Residual stresses
,
Graphics processing units
,
Simulation
,
Welding
,
Computation
,
Computer software
,
Computers
,
Heat
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