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Boundary Value Problems in Linear Viscoelasticity - John M. Golden, George A.C. Graham

Boundary Value Problems in Linear Viscoelasticity

Buch | Softcover
XIV, 266 Seiten
2013 | 1. Softcover reprint of the original 1st ed. 1988
Springer Berlin (Verlag)
978-3-662-06158-9 (ISBN)
CHF 74,85 inkl. MwSt
The classical theories of Linear Elasticity and Newtonian Fluids, though trium phantly elegant as mathematical structures, do not adequately describe the defor mation and flow of most real materials. Attempts to characterize the behaviour of real materials under the action of external forces gave rise to the science of Rheology. Early rheological studies isolated the phenomena now labelled as viscoelastic. Weber (1835, 1841), researching the behaviour of silk threats under load, noted an instantaneous extension, followed by a further extension over a long period of time. On removal of the load, the original length was eventually recovered. He also deduced that the phenomena of stress relaxation and damping of vibrations should occur. Later investigators showed that similar effects may be observed in other materials. The German school referred to these as "Elastische Nachwirkung" or "the elastic aftereffect" while the British school, including Lord Kelvin, spoke ofthe "viscosityofsolids". The universal adoption of the term "Viscoelasticity", intended to convey behaviour combining proper ties both of a viscous liquid and an elastic solid, is of recent origin, not being used for example by Love (1934), though Alfrey (1948) uses it in the context of polymers. The earliest attempts at mathematically modelling viscoelastic behaviour were those of Maxwell (1867) (actually in the context of his work on gases; he used this model for calculating the viscosity of a gas) and Meyer (1874).

1. Fundamental Relationships.- 2. General Theorems and Methods of Solution of Boundary Value Problems.- 3. Plane Non-inertial Contact Problems.- 4. Plane Non-inertial Crack Problems.- 5. Three-dimensional Contact Problems.- 6. Thermoviscoelastic Boundary Value Problems.- 7. Plane Inertial Problems.- Appendix I Tables of Relevant Integrals and Other Formulae.- Table A1.1 Hilbert Transforms on [-1, 1].- Table A1.3 Miscellaneous Integrals Associated with Hilbert Transforms.- Table A1.4 Other Miscellaneous Integrals and Relationships.- Appendix II Boundary Value Problems for Analytic Functions.- A2.1 Some Properties of Analytic Functions.- A2.1.1 The Principle Value of a Singular Integral.- A2.1.2 Analytic Continuation.- A2.1.3 Liouville's Theorem.- A2.1.4 Singularities.- A2.1.5 Branch Points.- A2.2 Cauchy Integrals.- A2.3 The Hilbert Problem with Constant Coefficient.- A2.4 The Hilbert Transform.- Appendix III Fourier Transforms.- A3.1 Definition and Basic Properties.- A3.2 Analytic Properties of Fourier Integrals.- Appendix IV Non-singular Integral Equations.- A4.1 Fredholm Equations.- A4.2 Volterra Equations.- References.

Erscheint lt. Verlag 13.7.2013
Zusatzinfo XIV, 266 p. 17 illus.
Verlagsort Berlin
Sprache englisch
Gewicht 494 g
Themenwelt Naturwissenschaften Physik / Astronomie Allgemeines / Lexika
Naturwissenschaften Physik / Astronomie Theoretische Physik
Schlagworte Analysis • analytic function • Applied mathematics • Elasticity • Integral • integral equation • Polymer • transform theory
ISBN-10 3-662-06158-9 / 3662061589
ISBN-13 978-3-662-06158-9 / 9783662061589
Zustand Neuware
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