Creep : proceedings of the ... international conference on creep and fatigue at elevated temperatures 一般社団法人日本機械学会 (01-201) (20010603)

 CiNii Books

COVER  本文: CiNii   
CREEP7(Title page)  本文: CiNii   
Copyright Information  本文: CiNii   
The Japan Society of Mechanical Engineering(Information)  本文: CiNii   
Preface  本文: CiNii    iii
ORGANIZING COMMITTEE(Information)  本文: CiNii    iv
CREEP7 CONTENTS(Divisional title)  本文: CiNii   
CONTENTS  本文: CiNii    vii-xv
CREEP7 Keynote Lectures 1(Divisional title)  本文: CiNii   
KL-1-1 Steady-state Creep Reference Rupture Stresses for Internally Pressurised Pipes with Additional End Load(Keynote Lectures 1)  本文: CiNii    1-6
KL-1-2 Materials Technology for Advanced Land Based Gas Turbines(Keynote Lectures 1)  本文: CiNii    7-21
KL-1-3 Toward Future Advances in High Temperature Design(Keynote Lectures 1)  本文: CiNii    23-25
CREEP7 Life Assessment of Thermal Power Plant 1(Divisional title)  本文: CiNii   
SA-01-1(008) A Manual For Life Assessment Of Power Boilers In Brazil : Its Development And Application(Life Assessment of Thermal Power Plant 1)  本文: CiNii    27-31
SA-01-2(022) Life Prediction of Ligament Cracking in Thermal Fatigue Test Simulating Boiler Header(Life Assessment of Thermal Power Plant 1)  本文: CiNii    33-38
SA-01-3(088) Creep-Fatigue Crack Growth Evaluation of Low Alloy Steel under Displacement-Controlled Conditions(Life Assessment of Thermal Power Plant 1)  本文: CiNii    39-43
SA-01-4(063) Application of Risk-Based Maintenance on 600MW fossil-fired power plant(Life Assessment of Thermal Power Plant 1)  本文: CiNii    45-48
CREEP7 Materials Performance in Nuclear Application 1(Divisional title)  本文: CiNii   
SB-01-1(020) Creep Behavior of 8Cr2WVTa Martensitic Steel Designed for Fusion DEMO Reactor : An Assessment on Helium Embrittlement Resistance(Materials Performance in Nuclear Application 1)  本文: CiNii    49-53
SB-01-2(065) Thermal fatigue experiment of the CuCrZr divertor mock-ups(Materials Performance in Nuclear Application 1)  本文: CiNii    55-58
SB-01-3(098) Study on Creep-Fatigue Life of Irradiated Austenitic Stainless Steel(Materials Performance in Nuclear Application 1)  本文: CiNii    59-62
SB-01-4(049) Basic Material Properties of Cr-Mo Steels over 1273K(Materials Performance in Nuclear Application 1)  本文: CiNii    63-67
CREEP7 Life Assessment of Thermal Power Plant 2(Divisional title)  本文: CiNii   
SA-02-1(086) Creep Life Assessment Method of Weldments of Steam Pipes Based on Hardness Distribution Measurement and Hardness Normalized Creep Rupture Master Curves(Life Assessment of Thermal Power Plant 2)  本文: CiNii    69-74
SA-02-2(114) ASSESSMENT OF RESIDUAL CREEP LIFE OF Cr-Mo-V STEEL(Life Assessment of Thermal Power Plant 2)  本文: CiNii    75-80
SA-02-3(094) Remaining Life Assessment Methods for Boiler Weldment Parts(Life Assessment of Thermal Power Plant 2)  本文: CiNii    81-86
SA-02-4(107) Long term behavior of weldments of modern power plant steels(Life Assessment of Thermal Power Plant 2)  本文: CiNii    87-91
CREEP7 Materials Performance in Nuclear Application 2(Divisional title)  本文: CiNii   
SB-02-1(064) Development of a filler metal for weldments of a Ni-Cr-W superalloy with high creep strength(Materials Performance in Nuclear Application 2)  本文: CiNii    93-99
SB-02-2(075) Multiaxial Creep Behavior of Nickel-Base Heat-Resistant Alloys Hastelloy XR and Ni-Cr-W Superalloy at Elevated Temperatures(Materials Performance in Nuclear Application 2)  本文: CiNii    101-106
SB-02-3(046) Creep Failure of Reactor Cooling System Piping of Nuclear Power Plant under Severe Accident Conditions(Materials Performance in Nuclear Application 2)  本文: CiNii    107-115
SB-02-4(112) RUPTHER : A PROGRAMME TO UNDERSTAND THE RPV LOWER HEAD BEHAVIOUR UNDER SEVERE ACCIDENT LOADING CONDITIONS(Materials Performance in Nuclear Application 2)  本文: CiNii    117-122
CREEP7 Keynote Lectures 2(Divisional title)  本文: CiNii   
KL-2-1 The role of defect assessment in elevated temperature component design and remaining life estimation codes(Keynote Lectures 2)  本文: CiNii    123-130
KL-2-2 Development of Miniature-Specimen Test Techniques For Measuring Creep-Crack-Growth Behavior(Keynote Lectures 2)  本文: CiNii    131-136
KL-2-3 The Present Status of Research and Development on Heat Resistant Alloys in China(Keynote Lectures 2)  本文: CiNii    137-144
CREEP7 Life Assessment of Thermal Power Plant 3(Divisional title)  本文: CiNii   
SA-03-1(060) Nondestructive Evaluation of Creep Damage using Leaky Surface Acoustic Wave Technique(Life Assessment of Thermal Power Plant 3)  本文: CiNii    145-149
SA-03-2(040) Non-destructive creep damage evaluation by carbide structure analysis-1 : Carbide structure change of CrMoV turbine rotor steel(Life Assessment of Thermal Power Plant 3)  本文: CiNii    151-156
SA-03-3(089) Non-destructive creep damage evaluation by carbide structure analysis-2 : Creep damage evaluation of serviced turbine rotors by carbide structure analysis(Life Assessment of Thermal Power Plant 3)  本文: CiNii    157-160
SA-03-4(023) Development of Creep Damage Diagnosis System and New Creep Damage Assessment Method(Life Assessment of Thermal Power Plant 3)  本文: CiNii    161-166
CREEP7 Materials Performance in Nuclear Application 3(Divisional title)  本文: CiNii   
SB-03-1(033) Application of K-R Creep Damage Model for Type 316LN and HT-9 Stainless Steels(Materials Performance in Nuclear Application 3)  本文: CiNii    167-172
SB-03-2(100) Benchmark Study of Creep-Fatigue life Predicted by Elevated Temperature Design Standards of Every Country(Materials Performance in Nuclear Application 3)  本文: CiNii    173-177
SB-03-3(074) Inelastic Constitutive Equation in Alloy800H(Materials Performance in Nuclear Application 3)  本文: CiNii    179-183
CREEP7 Life Assessment of Thermal Power Plant 4(Divisional title)  本文: CiNii   
SA-04-1(085) In-service Degradation and Life Prediction of Coatings for Advanced Land-base Gas Turbine Buckets(Life Assessment of Thermal Power Plant 4)  本文: CiNii    185-189
SA-04-2(091) The influence of oxidation on crack-growth behavior in Ni-based DS alloy(Life Assessment of Thermal Power Plant 4)  本文: CiNii    191-196
SA-04-3(090) Effect of Repair Welds on the Performance of Service-Aged 2.25Cr-1Mo Piping(Life Assessment of Thermal Power Plant 4)  本文: CiNii    197-201
CREEP7 Intermetallics and Its Composites(Divisional title)  本文: CiNii   
SB-04-1(003) Creep Behavior of Orthorhombic Ti_2AlNb Based Intermetallic Alloys(Intermetallics and Its Composites)  本文: CiNii    203-207
SB-04-2(102) Oxidation Behavior and Mechanical Properties of Nb_3Si_5Al_2 Matrix Compacts Prepared by Spark Plasma Sintering(Intermetallics and Its Composites)  本文: CiNii    209-214
SB-04-3(103) High Temperature Fatigue and Creep Behavior of TiB_2 Particulate Reinforced Titanium Aluminide Intermetallic Matrix Composites(Intermetallics and Its Composites)  本文: CiNii    215-218
SB-04-4(016) Microstructures and Creep Properties of Al_3Sc with Ternary transition metal additions(Intermetallics and Its Composites)  本文: CiNii    219-226
SB-04-5(104) Mechanical Properties and Creep Behavior of In-situ Single Crystal Oxide Ceramic Eutectic Composites in Simulated Severe Environments(Intermetallics and Its Composites)  本文: CiNii    227-230
CREEP7 Waste Incinerator(Divisional title)  本文: CiNii   
SA-05-1(039) Durability of New Corrosion-resistant Tube Materials in High-efficiency Waste-to-energy Boiler(Waste Incinerator)  本文: CiNii    231-237
SA-05-2(048) Prediction of corrosion rate for superheater tube materials in waste incinerators by a regression analysis of field corrosion test data(Waste Incinerator)  本文: CiNii    239-243
SA-05-3(067) CORROSION MONITORING OF ALLOYS IN WASTE INCINERATION ENVIRONMENTS(Waste Incinerator)  本文: CiNii    245-249
SA-05-4(055) A NEW AUSTENITIC TUBE ALLOY CONTAINING 9% MOLYBDENUM RESISTANT TO FIRESIDE CORROSION IN WASTE INCINERATORS(Waste Incinerator)  本文: CiNii    251-254
SA-05-5(097) The Corrosion and Mechanical Behavior of Ni-Cr-Mo Alloy Applied for Superheater Tube(Waste Incinerator)  本文: CiNii    255-260
CREEP7 Ceramic, Polymer and Composites(Divisional title)  本文: CiNii   
SB-05-1(059) Mechanical Properties of Eutectic Fe-Cr-C Composite Alloys(Ceramic, Polymer and Composites)  本文: CiNii    261-266
SB-05-2(041) Degradation of Tyranno^<TM>ZMI Fiber/Si-Ti-C-O Matrix Composites under Constant Load Conditions at Elevated Temperature(Ceramic, Polymer and Composites)  本文: CiNii    267-272
SB-05-3(093) Creep of Fiber Reinforced Composites(Ceramic, Polymer and Composites)  本文: CiNii    273-276
SB-05-4(101) Viscoelastic shear lag analysis of a cross-ply laminate with transverse cracking(Ceramic, Polymer and Composites)  本文: CiNii    277-280
SB-05-5(123) Temperature-Atmosphere Dependence of Creep Behavior of Advanced SiC-Based Fibers(Ceramic, Polymer and Composites)  本文: CiNii    281-284a
CREEP7 Flaw Assessment at Elevated Temperature 1(Divisional title)  本文: CiNii   
SA-06-1(111) Enhanced Reference Stress Approach for Defect Assessment of Components Operating at High Temperatures(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    285-290
SA-06-2(013) Size Distribution of Creep Cracks and Fracture Mechanisms in High-Temperature Materials(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    291-296
SA-06-3(007) On Time-dependent Crack Growth Parameters in Plasticity and Creep Fields(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    297-300
SA-06-4(029) Modelling of Creep Crack Growth in Waspaloy Using Finite Element Methods(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    301-305
SA-06-5(120) CREEP DAMAGE AND CRACK GROWTH IN STEEL WELDS(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    307-314
SA-06-6(001) ALTERNATIVE APPROACHES IN THE R5 PROCEDURES FOR PREDICTING INITIATION AND THE EARLY STAGES OF CREEP CRACK GROWTH(Flaw Assessment at Elevated Temperature 1)  本文: CiNii    315-319
CREEP7 Changes in Microstructure 1(Divisional title)  本文: CiNii   
SB-06-1(012) The Effect of Microstructural Morphology of Steel on Threshold Stress in Creep(Changes in Microstructure 1)  本文: CiNii    321-325
SB-06-2(031) High Temperature Low Cycle Fatigue of 21/4Cr1Mo Steels : Role of Microstructure and Effect of Environment(Changes in Microstructure 1)  本文: CiNii    327-330
SB-06-3(057) Change in Tensile and Creep Properties of 2.25Cr-1Mo Steel by Prolonged Exposure in Plant(Changes in Microstructure 1)  本文: CiNii    331-334
SB-06-4(038) Changes in Precipitates of Modified 9Cr-1Mo Steel During Long-term Creep Deformation at 873K and 923K(Changes in Microstructure 1)  本文: CiNii    335-339
SB-06-5(036) Influence of Pre-Aging on Creep Rupture Strength of Tungsten Alloyed 9%Cr Ferritic Steel and Creep Damage Evaluation by Electrochemical Method(Changes in Microstructure 1)  本文: CiNii    341-345
CREEP7 Flaw Assessment at Elevated Temperature 2(Divisional title)  本文: CiNii   
SA-07-1(050) Influence of Temperature on Crack Growth Behavior in a Titanium Alloy Under Multiaxial Fatigue(Flaw Assessment at Elevated Temperature 2)  本文: CiNii    347-351
SA-07-2(099) Loading Frequency Effect on Near-Threshold and Sub-Threshold Fatigue Crack Growth in SUS304 Steel at an Elevated Temperature(Flaw Assessment at Elevated Temperature 2)  本文: CiNii    353-358
SA-07-3(082) Assessment of Creep-Fatigue Crack Growth of 21/4Cr1Mo/Inconel 182/Type 316 Dissimilar Metal Weld Feature in Cyclic Pure Bending with Hold-Periods.(Flaw Assessment at Elevated Temperature 2)  本文: CiNii    359-364
SA-07-4(027) Simplified Estimation Method of Inelastic J-integral for Creep-Fatigue Crack Propagation Prediction in General Loading Conditions(Flaw Assessment at Elevated Temperature 2)  本文: CiNii    365-372
SA-07-5(110) Development of Simplified Evaluation Method for Creep J-integral(Flaw Assessment at Elevated Temperature 2)  本文: CiNii    373-378
CREEP7 Changes in Microstructure 2(Divisional title)  本文: CiNii   
SB-07-1(056) Creep Behavior of Weld Heat Affected Zone Regions for Modified 9Cr-lMo Steel(Changes in Microstructure 2)  本文: CiNii    379-382
SB-07-2(070) Assessment of Material Degradation Based on Microstructural Evolution in Type 304H Stainless Steel During Long-Term Creep(Changes in Microstructure 2)  本文: CiNii    383-387
SB-07-3(083) Effect of Microstructural Changes During Creep on The Creep Rate at 823K in Type 304 Heat Resistant Steel(Changes in Microstructure 2)  本文: CiNii    389-393
SB-07-4(084) Mechanical Properties and Microstructure of 0.1C-18Cr-9Ni-3Cu-Nb, N Steel Tube after Long Term Exposure in a Power Boiler(Changes in Microstructure 2)  本文: CiNii    395-399
SB-07-5(073) Development of 18Cr-9Ni-W-Nb-V-N Austenitic Stainless Steel Tube for Thermal Power Boilers(Changes in Microstructure 2)  本文: CiNii    401-406
CREEP7 Flaw Progress & Failure Mechanism 1(Divisional title)  本文: CiNii   
SA-08-1(024) Time dependent flow behavior of pure aluminum and aluminum-magnesium alloy under a constant stress condition(Flaw Progress & Failure Mechanism 1)  本文: CiNii    407-409
SA-08-2(062) Elevated Temperature Strength Evaluation for 2 1/4Cr-lMo steel Weld Joint(Flaw Progress & Failure Mechanism 1)  本文: CiNii    411-415
SA-08-3(069) Failure mechanism in Carbon Manganese steel at 360℃ under multiaxial stress states(Flaw Progress & Failure Mechanism 1)  本文: CiNii    417-422
SA-08-4(095) In Situ Observation of Mesoscopic Fatigue Deformation Behavior of a Nodular Cast Iron(Flaw Progress & Failure Mechanism 1)  本文: CiNii    423-426
SA-08-5(025) Measurement of Micro-Creep Deformation using Electron Moire Method(Flaw Progress & Failure Mechanism 1)  本文: CiNii    427-432
CREEP7 Advanced Heat Resistant Steels(Divisional title)  本文: CiNii   
SB-08-1(081) Improvement of Creep Strength of Ferritic Steels for 650℃ USC Boilers(Advanced Heat Resistant Steels)  本文: CiNii    433-436
SB-08-2(034) Development of Precipitation Strengthened 15Cr Ferritic Creep Resistant Steel(Advanced Heat Resistant Steels)  本文: CiNii    437-442
SB-08-3(037) Effects of W and Co on the Microstructure and Creep Strength of the Precipitation Strengthened 15Cr Ferritic Steels(Advanced Heat Resistant Steels)  本文: CiNii    443-447
CREEP7 Flaw Progress & Failure Mechanism 2(Divisional title)  本文: CiNii   
SA-09-1(014) Advances in the Use of Stress Relaxation Data for Design and Life Assessment in Combustion Turbines(Flaw Progress & Failure Mechanism 2)  本文: CiNii    449-453
SA-09-2(068) Evaluation of creep damage due to void growth under triaxial stress states in the design of steam turbine components(Flaw Progress & Failure Mechanism 2)  本文: CiNii    455-459
SA-09-3(043) Growth of Grain Boundary Cavity under Nabarro-Herring Creep(Flaw Progress & Failure Mechanism 2)  本文: CiNii    461-465
SA-09-4(054) Effect of Notch Depth on Creep Plastic Zone and Crack Initiation of 304 Stainless Steel Double Edge Notched Specimen(Flaw Progress & Failure Mechanism 2)  本文: CiNii    467-473
CREEP7 Advanced Heat Resistant Steels(Divisional title)  本文: CiNii   
SB-09-1(051) An Improvement on Creep Characteristics in Carbon Free Martensitic Alloys(Advanced Heat Resistant Steels)  本文: CiNii    475-479
SB-09-2(042) Creep-Fatigue Interaction for Advanced Ferritic Heat-Resisting Steels(Advanced Heat Resistant Steels)  本文: CiNii    481-484
SB-09-3(045) Long-Term Fatigue Properties at High-Temperatures for Ferritic Heat-Resistant 12Cr-2W Steel(Advanced Heat Resistant Steels)  本文: CiNii    485-488
CREEP7 Life Prediction of Solder(Divisional title)  本文: CiNii   
SA-10-1(010) Creep and Creep Rupture of Sn-37Pb and Sn-95Pb Solders(Life Prediction of Solder)  本文: CiNii    489-495
SA-10-2(096) Sb-Sn and Zn-Sn Lead-Free Solders for CBGA(Life Prediction of Solder)  本文: CiNii    497-500
CREEP7 Damage Mechanics(Divisional title)  本文: CiNii   
SA-10-3(080) A Coupled Creep and Damage Model Considering Non-Symmetric Strengths in Tension and Compression(Damage Mechanics)  本文: CiNii    501-506
SA-10-4(032) Finite Element Creep Continuum Damage Mechanics Analysis of Pressurised Pipe Bends with Ovality(Damage Mechanics)  本文: CiNii    507-511
SA-10-5(078) On the improvement of creep-damage analysis of thin-walled structures(Damage Mechanics)  本文: CiNii    513-518
SA-10-6(106) The Use of CDM Analysis Techniques in High Temperature Creep Failure of Welded Structures(Damage Mechanics)  本文: CiNii    519-526
CREEP7 Creep Deformation and Fracture of Superalloys(Divisional title)  本文: CiNii   
SB-10-1(005) Relationship of Long-term Creep Behavior with Microstructural Evolution in a Nickel-Base Superalloy Udimet 500(Creep Deformation and Fracture of Superalloys)  本文: CiNii    527-532
SB-10-2(015) CREEP BEHAVIOR OF Ir-Nb AND Ir-Zr REFRACTORY SUPERALLOYS(Creep Deformation and Fracture of Superalloys)  本文: CiNii    533-537
SB-10-3(017) Construction of Database on Heat Resistant Alloys and Some Analyses of Creep Properties(Creep Deformation and Fracture of Superalloys)  本文: CiNii    539-543
SB-10-4(021) Creep Behavior of Ir-Nb-Ni Two-phase Refractory Superalloy(Creep Deformation and Fracture of Superalloys)  本文: CiNii    545-550
SB-10-5(116) Change in Feature of Transient Creep with Decreasing Stress(Creep Deformation and Fracture of Superalloys)  本文: CiNii    551-555
CREEP7 Inelastic Modeling & Analysis 1(Divisional title)  本文: CiNii   
SA-11-1(076) Unified Inelastic Constitutive Equations for Ni-based Superalloy IN738LC(Inelastic Modeling & Analysis 1)  本文: CiNii    557-563
SA-11-2(026) Multiaxial Inelastic Deformation at High Temperature and Constitutive Modeling Based on Viscoplasticity Theory(Inelastic Modeling & Analysis 1)  本文: CiNii    565-570
SA-11-3(047) THE DEVELOPMEENT OF MULTI-AXIAL CREEP DAMAGE CONSTITUTIVE EQUATIONS FOR 0.5Cr0.5Mo0.25V FERRETIC STEEL AT 590℃(Inelastic Modeling & Analysis 1)  本文: CiNii    571-577
SA-11-4(108) Investigations on the creep ratchetting behavior of 1 Cr and 9 Cr steels(Inelastic Modeling & Analysis 1)  本文: CiNii    579-584
CREEP7 Microstructure & Crack Propagation of Superalloys(Divisional title)  本文: CiNii   
SB-11-1(115) Stereological Analysis of Rafting in Single Crystal CMSX-4(Microstructure & Crack Propagation of Superalloys)  本文: CiNii    585-589
SB-11-2(044) Estimation of Remaining Lifetime of Ni-based Single Crystal Superalloy by the measuring of High Temperature Internal Friction Peak(Microstructure & Crack Propagation of Superalloys)  本文: CiNii    591-595
SB-11-4(118) Effects of Loading Frequency and Environment on Creep-Fatigue Small Crack Growth Behavior in CM247 Polycrystalline Ni-Base Superalloy(Microstructure & Crack Propagation of Superalloys)  本文: CiNii    597-602
SB-11-5(122) Creep Behavior of a New Ni-base Single-crystal Superalloy, TMS-82+(Microstructure & Crack Propagation of Superalloys)  本文: CiNii    603-607
CREEP7 Inelastic Modeling & Analysis 2(Divisional title)  本文: CiNii   
SA-12-1(004) Creep Equations for High Temperature Materials(Inelastic Modeling & Analysis 2)  本文: CiNii    609-616
SA-12-2(105) Modeling of rate dependence and creep using VBO with a minimum number of constants(Inelastic Modeling & Analysis 2)  本文: CiNii    617-623
SA-12-3(006) Strain Concentration Mechanism during Stress Relaxation Process and its Prediction(Inelastic Modeling & Analysis 2)  本文: CiNii    625-629
SA-12-4(077) Viscoplasticity Model using Framework of Crystal Plasticity and Its Application of High Temperature Structural Analysis(Inelastic Modeling & Analysis 2)  本文: CiNii    631-635
CREEP7 Thermo-Mechanical Fatigue of Superalloys & Coatings(Divisional title)  本文: CiNii   
SB-12-1(011) Thermal-mechanical Fatigue Crack Growth Behavior in Ni_3Al Superalloy(Thermo-Mechanical Fatigue of Superalloys & Coatings)  本文: CiNii    637-639
SB-12-2(052) Thermal Fatigue in Thermal Barrier Coating(Thermo-Mechanical Fatigue of Superalloys & Coatings)  本文: CiNii    641-646
SB-12-3(066) Effects of Strain Holding on Creep-Fatigue Micro Crack Initiation Life in Ni-based Single Crystal Superalloy(Thermo-Mechanical Fatigue of Superalloys & Coatings)  本文: CiNii    647-652
SB-12-4(117) The effect of Service Exposure on Mechanical Properties of Gas Turbine Blade Coatings(Thermo-Mechanical Fatigue of Superalloys & Coatings)  本文: CiNii    653-658
SB-12-5(119) Collaborative Research on Themo-Mechanical and Isothermal Low-Cycle Fatigue Strength of Ni-Base Superalloys and the Protective Coatings at Elevated Temperatures in Japan.(Thermo-Mechanical Fatigue of Superalloys & Coatings)  本文: CiNii    659-664

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