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Print Material
Author Sun, Wei.

Title High Temperature Miniature Specimen Test Methods [electronic resource].

Imprint San Diego : Elsevier, 2023.

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Description 1 online resource (288 p.)
Note Description based upon print version of record.
Contents Front Cover -- High Temperature Miniature Specimen Test Methods -- High Temperature Miniature Specimen Test Methods -- Copyright -- Contents -- About the authors -- Foreword -- 1 -- Introduction -- 1.1 Conventional creep test specimen requirements -- 1.1.1 Full-size cylindrical uniaxial specimen test -- 1.1.2 Subsize cylindrical uniaxial specimen test -- 1.2 Need to extract material properties from small volume of material -- 1.3 Requirements for material evaluation and structural integrity -- 1.3.1 General background -- 1.3.2 Fusion materials -- 1.3.3 Condition monitoring and life management
1.3.4 Gas turbine blades -- 1.4 Scope of the book -- References -- 2 -- Basic material behavior models for creep and viscoplasticity -- 2.1 Introduction -- 2.2 Norton power law secondary creep model -- 2.2.1 The model -- 2.2.2 Estimating material constants -- 2.3 Creep damage mechanics models -- 2.3.1 The models -- 2.3.1.1 Kachanov creep damage model -- 2.3.1.2 Liu and Murakami creep damage model -- 2.3.1.3 Three-parameter creep damage (Dyson) model -- 2.3.2 Estimating material constants -- 2.3.2.1 Experimental data -- 2.3.2.2 Parameter identification -- 2.3.2.3 Model calibration
2.4 Unified viscoplasticity model -- 2.4.1 The basic model -- 2.4.2 Estimating material constants -- 2.4.2.1 Experimental data -- 2.4.2.2 Parameter identification -- 2.4.2.3 Model calibration -- 2.5 Other models -- Nomenclature -- References -- Further reading -- 3 -- Small punch test -- 3.1 Background and test standards -- 3.1.1 Background -- 3.1.2 Test standards -- 3.2 Small punch tensile test -- 3.2.1 Data interpretation method -- 3.2.1.1 Force-deflection curve parameters -- 3.2.1.2 Empirical correlations of yield stress and ultimate tensile strength -- 3.2.1.3 Determination of Fe
3.2.2 Typical test data -- 3.3 Small punch creep test -- 3.3.1 Data interpretation method -- 3.3.2 Typical test data -- 3.4 Practical applications, complexities, and limitations -- 3.4.1 Practical applications -- 3.4.2 Complexities -- 3.4.2.1 Stress states -- 3.4.2.2 Effect of friction -- 3.4.2.3 Effect of initial plasticity straining -- 3.4.2.4 Effect of clamping and constant volume -- 3.4.3 Limitations -- Nomenclature -- Appendix 3.1 Summary of Chakrabarty's membrane stretching theory -- Appendix 3.2 Cone model for equivalent stress and punch displacement
Appendix 3.3 Membrane stretching-based creep damage analytical solutions -- A3.3.1 Creep damage constitutive equations -- A3.3.2 Stresses -- A3.3.3 Creep damage evolution and failure life -- A3.3.4 Punch displacement and minimum displacement rate -- Strain energy formulations -- Punch displacement-time solution -- Minimum displacement rate -- References -- 4 -- Impression creep test with a rectangular indenter -- 4.1 Background -- 4.2 Data interpretation method -- 4.2.1 Data conversion of impression creep test -- 4.2.2 Reference stress method -- 4.2.3 Use of rectangular indenter
Note 4.2.4 Determination of conversion parameters
Subject Materials -- Testing.
Materials -- Creep.
Matériaux -- Essais.
Matériaux -- Fluage.
creep.
Added Author Yue, Zhufeng.
Zhou, Guoyan.
Wen, Zhixun.
Li, Ming.
Other Form: Print version: Sun, Wei High Temperature Miniature Specimen Test Methods San Diego : Elsevier,c2023 9780443218972
ISBN 9780443218989
0443218986
9780443218972
0443218978
Standard No. AU@ 000076053483

 
    
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