This book presents a comprehensive framework for the linear theories of elasticity and thermoelasticity of nanoporous materials with quadruple voids, developing models based on pore volume fractions and extending them to rigid bodies with the same structure. Using the potential method and modern singular integral equation theory, it systematically analyzes a broad class of non-classical boundary value problems, including equilibrium, steady vibrations, pseudo-oscillations, quasi-static processes, and heat conduction. Combining original, previously unpublished results, the work significantly advances the mathematical foundations of nanoporous media and offers a unified continuum-mechanical approach with important applications in fields such as engineering, geomechanics, materials science, and biomechanics, particularly for modeling complex biological tissues.
Skip to product information
Mathematical Theories of Nanoporous Media Elasticity and Thermoelasticity
Sale price
$179.99
Regular price
$199.99
Reliable shipping
Flexible returns
Solid Mechanics and Its Applications
Mathematical Theories of Nanoporous Media
Elasticity and Thermoelasticity
Merab Svanadze
Mathematics / Applied
Merab Svanadze is a Professor of Applied Mathematics at Ilia State University (Tbilisi, Georgia). His research focuses on the mathematical theories of elasticity, thermoelasticity, and multi-porosity media, with particular emphasis on potential methods and singular integral equations. He is the author of the influential monograph Potential Method in Mathematical Theories of Multi-Porosity Media (Springer, 2019) and serves as an Associate Editor of the Journal of Thermal Stresses.
| Publication Date: | 15 December 2026 |
| Publisher: | Springer Nature Switzerland |
| Imprint: | Springer |
| ISBN-13: | 9783032349132 |
| Format: | Hardback |