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Issues
February 2006
ISSN 0094-9930
EISSN 1528-8978
In this Issue
Editorial
Editorial
J. Pressure Vessel Technol. February 2006, 128(1): 1.
doi: https://doi.org/10.1115/1.2142135
Topics:
Pipes
,
Pressure vessels
,
Design
Research Papers
Fatigue Analysis in Pressure Vessel Design by Local Strain Approach: Methods and Software Requirements
J. Pressure Vessel Technol. February 2006, 128(1): 2–7.
doi: https://doi.org/10.1115/1.2137770
Topics:
Cycles
,
Plasticity
,
Stress
,
Pressure vessels
,
Computer software
,
Design
,
Hardening
Meaning of in Design-by-Analysis Fatigue Evaluation
J. Pressure Vessel Technol. February 2006, 128(1): 8–16.
doi: https://doi.org/10.1115/1.2140798
Topics:
Design
,
Fatigue
,
Stress
,
Pipes
,
Fatigue analysis
Creep-Fatigue Life Evaluation Method for Perforated Plates at Elevated Temperature
J. Pressure Vessel Technol. February 2006, 128(1): 17–24.
doi: https://doi.org/10.1115/1.2137766
Topics:
Creep
,
Cycles
,
Fatigue
,
Fracture (Materials)
,
Stress
,
Temperature
,
Relaxation (Physics)
,
Fatigue testing
,
Plates (structures)
ASME Section III Design-By-Analysis Criteria Concepts and Stress Limits
J. Pressure Vessel Technol. February 2006, 128(1): 25–32.
doi: https://doi.org/10.1115/1.2140797
Effect of Loading on Stress Intensification Factors
J. Pressure Vessel Technol. February 2006, 128(1): 33–38.
doi: https://doi.org/10.1115/1.2148420
Topics:
Cantilevers
,
Cycles
,
Deflection
,
Failure
,
Pipes
,
Stress
,
Fatigue testing
,
Carbon steel
A Plastic Load Criterion for Inelastic Design by Analysis
J. Pressure Vessel Technol. February 2006, 128(1): 39–45.
doi: https://doi.org/10.1115/1.2137768
Topics:
Deformation
,
Design
,
Stress
,
Work hardening
,
Pressure
New Weld Joint Strength Reduction Factors in the Creep Regime in ASME B31.3 Piping
J. Pressure Vessel Technol. February 2006, 128(1): 46–48.
doi: https://doi.org/10.1115/1.2140291
Topics:
Creep
,
Stress
,
Rupture
,
Welded joints
,
Pipes
Plastic Limit Loads of Pad Reinforced Cylindrical Vessels Under Out-of-Plane Moment of Nozzle
J. Pressure Vessel Technol. February 2006, 128(1): 49–56.
doi: https://doi.org/10.1115/1.2140800
Topics:
Displacement
,
Finite element analysis
,
Nozzles
,
Stress
,
Vessels
Japanese Activities Concerning Nuclear Codes and Standards—Part I
J. Pressure Vessel Technol. February 2006, 128(1): 57–63.
doi: https://doi.org/10.1115/1.2138062
Topics:
Cycles
,
Design
,
Engineering standards
,
Evaluation methods
,
Fatigue
,
Pipes
,
Stress
,
Nuclear power stations
,
Earthquake resistant design
,
Fracture toughness
Japanese Activities Concerning Nuclear Codes and Standards—Part II
J. Pressure Vessel Technol. February 2006, 128(1): 64–70.
doi: https://doi.org/10.1115/1.2138063
Theoretical Stress Analysis of Intersecting Cylindrical Shells Subjected to External Forces on Nozzle
J. Pressure Vessel Technol. February 2006, 128(1): 71–83.
doi: https://doi.org/10.1115/1.2138065
Topics:
Pipes
,
Shells
,
Stress
,
Nozzles
,
Stress analysis (Engineering)
New Piping Flexibility Rules in ASME B31.3, Appendix P
J. Pressure Vessel Technol. February 2006, 128(1): 84–88.
doi: https://doi.org/10.1115/1.2140289
Topics:
Pipes
,
Stress
,
Stress analysis (Engineering)
Flexibility Factors for Branch Pipe Connections Subjected to In-Plane and Out-of-Plane Moments
J. Pressure Vessel Technol. February 2006, 128(1): 89–94.
doi: https://doi.org/10.1115/1.2140801
Topics:
Finite element analysis
,
Pipes
,
Shells
U-Tube Heat-Exchangers: New Common Design Rules for ASME, CODAP, and EN 13445 CODES
J. Pressure Vessel Technol. February 2006, 128(1): 95–102.
doi: https://doi.org/10.1115/1.2138061
Topics:
Shells
,
Design
,
Heat exchangers
New Development in Studies on the Characteristics of Bolted Pipe Flange Connections in JPVRC
J. Pressure Vessel Technol. February 2006, 128(1): 103–108.
doi: https://doi.org/10.1115/1.2140799
Topics:
Finite element analysis
,
Flange connections
,
Gaskets
,
Pipes
,
Pressure
,
Stress
,
Stress analysis (Engineering)
,
Leakage
Historical Development of a Standard to Reduce Risk From Pressure Systems Failure–Part I: The ASME HPS Section 6000
J. Pressure Vessel Technol. February 2006, 128(1): 109–115.
doi: https://doi.org/10.1115/1.2137767
Topics:
Hazards
,
Pressure
,
Risk
,
Safety
,
System failures
,
Probability
,
Failure
,
Inspection
,
Pressure vessels
Historical Development of a Standard to Reduce Risk From Pressure Systems Failure— Part II: The ASME HPS-2003 Section 6000 “Hazardous Release Protection”
J. Pressure Vessel Technol. February 2006, 128(1): 116–121.
doi: https://doi.org/10.1115/1.2140288
Topics:
Failure
,
Hazards
,
Inspection
,
Pressure
,
Risk
,
System failures
,
Probability
Fire Versus Non-Fire Contingencies: A Study of Pressure-Relief Device Sizing Risks
J. Pressure Vessel Technol. February 2006, 128(1): 122–129.
doi: https://doi.org/10.1115/1.2141638
Topics:
American Petroleum Institute
,
Failure
,
Fire
,
Pressure
,
Valves
,
Relief valves
,
Pipes
,
Disks
,
Rupture
,
Safety
Determination of Corrosion Layers and Protective Coatings on Steels and Alloys Used in Simulated Service Environment of Modern Power Plants
J. Pressure Vessel Technol. February 2006, 128(1): 130–139.
doi: https://doi.org/10.1115/1.2137769
Uncertainty in Finite Element Modeling and Failure Analysis: A Metrology-Based Approach
Jeffrey T. Fong, James J. Filliben, Roland deWit, Richard J. Fields, Barry Bernstein, Pedro V. Marcal
J. Pressure Vessel Technol. February 2006, 128(1): 140–147.
doi: https://doi.org/10.1115/1.2150843
Topics:
Failure analysis
,
Finite element methods
,
Metrology
,
Uncertainty
,
Finite element analysis
,
Modeling
,
Failure
,
Structural engineering
,
Design
,
Simulation
Fluidelastic Instability of an Array of Tubes Preferentially Flexible in the Flow Direction Subjected to Two-Phase Cross Flow
J. Pressure Vessel Technol. February 2006, 128(1): 148–159.
doi: https://doi.org/10.1115/1.2138064
Topics:
Flow (Dynamics)
,
Porosity
,
Inflow
,
Two-phase flow
,
Damping
,
Vibration
,
Cross-flow
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