The question of failure of materials is among one of the most fundamental issues facing engineers. Within past and current practice and design, the notion of failure has largely been treated as a plastic limit condition of the Mohr-Coulomb type in geomechanics. However, failure modes can be encountered in the field, including the premature collapse of geomaterials below the plastic limit in the absence of any rupture surface. A compelling example is the catastrophic failure of a very shallow angled slope deemed to be safe by conventional thinking.This book systematically describes material failure within contemporary approaches which exploit the theory of bifurcation and apply it to geomaterials. The authors explore various forms of rupture and material instabilities. A unique feature of the approach is a similarly rigorous and experimentally based development of the quasi-static deformation of granular geomaterials that support loads through contact friction (dry) and fluid forces (fully and partially saturated).Failure in Geomaterials Handbook contains a systematic development of the fundamentals of failure in heterogeneous multiphasic materials, combining the mathematical rigour of solid mechanics with physics-based micro-mechanics theory to present a picture of inelastic deformations and failure of geomaterials under a broad range of loading conditions. Provides the fundamentals of the mechanics of geomaterials for a detailed background of the subjectIntegrates a rigorous mathematical description of failure seamlessly with mechanisms based on microstructureHelps you to apply mathematical models of solid mechanics to engineering practice INDICE: 1. Introduction2. Failure in Continuum Mechanics3. Hierarchy of Failure Modes4. Engineering Applications
- ISBN: 978-1-78548-009-6
- Editorial: ISTE Press - Elsevier
- Encuadernacion: Cartoné
- Páginas: 352
- Fecha Publicación: 01/05/2016
- Nº Volúmenes: 1
- Idioma: Inglés