Theory of viscoelasticity

Integration of numerous theoretical developments offers a complete, consistent description of the linear theory of the viscoelastic behavior of materials. Relevant theoretical formulations are derived from a continuum mechanics viewpoint, followed by discussions of problem-solving techniques. A welc...

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Bibliographic Details
Main Author: Christensen, R. M.
Format: eBook
Language: English
Published: Mineola, N.Y. : Dover Publications, 2003.
Edition: 2nd ed.
Series: Dover Civil and Mechanical Engineering.
Subjects:
Viscoelasticity.
elektronické knihy
electronic books
ISBN: 9780486318967
0486318966
9781628709063
1628709065
048642880X
9780486428802
Physical Description: 1 online resource (xii, 364 pages) : illustrations

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Table of contents

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100 1 |a Christensen, R. M.  |q (Richard M.)  |1 https://id.oclc.org/worldcat/entity/E39PBJmp8HHgbyYHmyB9wf9hpP 
245 1 0 |a Theory of viscoelasticity /  |c Richard M. Christensen. 
250 |a 2nd ed. 
260 |a Mineola, N.Y. :  |b Dover Publications,  |c 2003. 
300 |a 1 online resource (xii, 364 pages) :  |b illustrations 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
490 1 |a Dover Civil and Mechanical Engineering 
500 |a Originally published: New York : Academic Press, 1982. 
504 |a Includes bibliographical references and index. 
506 |a Plný text je dostupný pouze z IP adres počítačů Univerzity Tomáše Bati ve Zlíně nebo vzdáleným přístupem pro zaměstnance a studenty 
520 |a Integration of numerous theoretical developments offers a complete, consistent description of the linear theory of the viscoelastic behavior of materials. Relevant theoretical formulations are derived from a continuum mechanics viewpoint, followed by discussions of problem-solving techniques. A welcome addition to the literature.? American Scientist. 29 figures. 1982 edition. 
505 0 |a Cover; Title Page; Copyright Page; Contents; Preface to Second Edition; Preface to First Edition; I. Viscoelastic Stress Strain Constitutive Relations; 1.1. Introduction; 1.2. Integral Form of Stress Strain Constitutive Relations, Stieltjes Convolution Notation; 1.3. Consequences of Fading Memory and the Distinction between Viscoelastic Solids and Fluids; 1.4. Differential Operator Form of Stress Strain Constitutive Relations; 1.5. Relaxation and Creep Characteristics, Mechanical Models; 1.6. Steady State and Fourier Transformed Stress Strain Constitutive Relations. 
505 8 |a 1.7. Accelerated and Retarded Processes1.8. Alternative Mechanical Property Functions; 1.9. Spectra Problems References; II. Isothermal Boundary Value Problems; 2.1. Formulation of the Boundary Value Problem; 2.2. Uniqueness of Solution; 2.3. Separation of Variables Conditions; 2.4. Steady State Harmonic Conditions; 2.5. Integral Transform Methods; 2.6. Effect of Inertia Terms; 2.7. Steady State Harmonic Oscillation Example; 2.8. Quasi-Static Response Example; 2.9. Pressurization of a Cylinder; 2.10. Pressurization of a Spherical Cavity; 2.11. Free Vibration. 
505 8 |a 2.12. Limitations of Integral Transform Methods2.13. Summary and Conclusions; Problems; References; III. Thermoviscoelasticity; 3.1. Thermodynamical Derivation of Constitutive Relations; 3.2. Restrictions and Special Cases; 3.3. Relationship to Nonnegative Work Requirements; 3.4. Formulation of the Thermoviscoelastic Boundary Value Problem; 3.5. Temperature Dependence of Mechanical Properties; 3.6. Thermorheologically Simple Materials; 3.7. Glass Transition Criterion; 3.8. Heat Conduction; Problems; References; IV. Mechanical Properties and Approximate Transform Inversion; 4.1. Introduction. 
505 8 |a 4.2. Relaxation and Creep Procedures4.3. Steady State Harmonic Oscillation Procedures; 4.4. Wave Propagation Procedures; 4.5. Temperature Dependent Effects; 4.6. Approximate Interrelationships among Properties; 4.7. Approximate Inversion of the Laplace Transform; 4.8. Approximate Solutions for Dynamic Problems; Problems; References; V. Problems of a Nontransform Type; 5.1. Contact Problem; 5.2. Extended Correspondence Principle; 5.3. Crack Growth-Local Failure Model; 5.4. Crack Growth-Energy Balance Approach; 5.5. Thermoviscoelastic Stress Analysis Problem; Problems; References. 
505 8 |a VI. Wave Propagation6.1. Isothermal Wave Propagation; 6.2. Dynamic Response Problems; 6.3. Harmonic Thermoviscoelastic Waves in Unlimited Media; 6.4. Reflection of Harmonic Waves; 6.5. Moving Loads on a Viscoelastic Half Space; 6.6. Viscoelastic Rayleigh Waves; VII. General Theorems and Formulations; 7.1. Uniqueness of Solution of Coupled Thermoviscoelastic Boundary Value Problem; 7.2. Representation in Terms of Displacement Functions; 7.3. Reciprocal Theorem; 7.4. Variational Theorems; 7.5. Minimum Theorems; 7.6. Optimal Strain History; VIII. Nonlinear Viscoelasticity. 
590 |a Knovel  |b Knovel (All titles) 
650 0 |a Viscoelasticity. 
655 7 |a elektronické knihy  |7 fd186907  |2 czenas 
655 9 |a electronic books  |2 eczenas 
776 0 8 |i Print version:  |a Christensen, R.M. (Richard M.).  |t Theory of viscoelasticity.  |b 2nd ed.  |d Mineola, N.Y. : Dover Publications, 2003  |z 048642880X  |w (DLC) 2002041301  |w (OCoLC)51058999 
830 0 |a Dover Civil and Mechanical Engineering. 
856 4 0 |u https://proxy.k.utb.cz/login?url=https://app.knovel.com/hotlink/toc/id:kpTVE00003/theory-of-viscoelasticity?kpromoter=marc  |y Full text 

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