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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aStructural components$b[electronic resource] $emechanical tests and behavioral laws /$fedited by Dominique Franc?ois
210   $aLondon $cISTE ;$aHoboken, NJ, USA $cWiley $cISTE$d2008
215   $a1 online resource (343 p.)
225 1 $aISTE ;$vv.18
300   $aDescription based upon print version of record.
311   $a1-84821-015-9 
320   $aIncludes bibliographical references and index.
327   $aStructural Components; Table of Contents; Chapter 1. Introduction; Chapter 2. Constitutive Equations; 2.1. Introduction; 2.2. Fundamental concepts; 2.2.1. Domain of elasticity; 2.2.2. Hardening; 2.2.3. Normality rules; 2.3. Unified theory of viscoplasticity; 2.3.1. General form of the constitutive law; 2.3.2. Choice of viscosity law; 2.3.3. Isotropic hardening laws; 2.3.4. Kinematic hardening laws; 2.3.5. Cyclic hardening and softening; 2.3.6. Static recovery; 2.3.7. Time-independent limit case; 2.3.8. Methods of determination
327   $a2.3.8.1. Determination of hardening laws within independent time-scheme2.3.8.2. Determination of the viscosity law; 2.3.8.3. Determination of static recovery effects; 2.3.9. Other unified approaches; 2.4. Other types of modeling; 2.4.1. Plasticity-creep partition; 2.4.2. Methods by means of micro-macro transposition; 2.4.3. More advanced hardening laws; 2.4.4. Aging; 2.4.5. Damage; 2.5. Conclusion; 2.6. Bibliography; Chapter 3. Measurement of Elastic Constants; 3.1. Elastic constants; 3.1.1. The perfect crystal - elastic constants; 3.1.2. Isotropic solid - elastic moduli
327   $a3.1.3. From isotropic solid to real material3.1.4. Dynamic modulus; 3.2. Quasi-static mechanical tests; 3.2.1. Uni-axial tensile and compression tests; 3.2.2. Torsion and bending tests; 3.2.3. Hydrostatic compression tests; 3.3. Ultrasonic methods; 3.3.1. Principle; 3.3.2. Measurement error sources; 3.3.3. Measurements at high temperatures; 3.3.4. Immersion-bath ultrasound interferometry; 3.4. Resonant methods; 3.4.1. Introduction to resonant methods; 3.4.2. Various experimental methods; 3.4.3. Bar and disk tests; 3.4.4. Bending tests on foil; 3.4.5. Torsion tests; 3.4.6. Other tests
327   $a3.5. Modulus measurements of coatings3.5.1. Vibratory methods; 3.5.2. Instrumented indentation; 3.6. Bibliography; Chapter 4. Tensile and Compression Tests; 4.1. Introduction; 4.2. Description of the tensile test; 4.2.1. Test piece; 4.2.2. Gripping; 4.2.3. Tensile testing machine; 4.2.3.1. Arrangements; 4.2.3.2. Stiffness; 4.3. Standard data; 4.4. Determination of constitutive equations; 4.4.1. True stress and strain; 4.4.2. Empirical expressions of the work hardening curve; 4.4.3. Necking; 4.4.3.1. Condition with no strain rate effect; 4.4.3.2. Strain rate sensitivity; 4.4.3.3. Yield drops
327   $a4.5. Damage determination4.6. Compression test; 4.7. Conclusion; 4.8. Notations; 4.9. Bibliography; Chapter 5. Hardness Tests; 5.1. Introduction; 5.2. Standard hardness tests; 5.2.1. Vickers hardness tests; 5.2.2. Micro-hardness; 5.2.3. Nano-hardness (Berkovich type indenter); 5.2.4. Brinell and Rockwell ball tests; 5.3. Analytical approaches of hardness tests; 5.3.1. Identification of the modulus of elasticity (Hertz contact); 5.3.2. Identification of the yield strength (Hill's analysis); 5.4. Finite element analysis of hardness test; 5.4.1. Finite element method
327   $a5.4.2. Effect of work-hardening amplitude
330   $aThe mechanical tests presented in this book are essential for determining the basic properties of the materials used. Areas covered include elasticity, tensile and compression tests, hardness, endurance tests and dynamic tests.
410  0$aISTE
606   $aMaterials$xMechanical properties
606   $aDeformations (Mechanics)
608   $aElectronic books.
615  0$aMaterials$xMechanical properties.
615  0$aDeformations (Mechanics)
676   $a620.1/123
676   $a624.1
701   $aFranc?ois$b Dominique$f1948-$0916518
801  0$bMiAaPQ
906   $aBOOK
912   $a996208334803316
996   $aStructural components$92054515
997   $aUNISA

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