Gould, Phillip L.
Introduction to Linear Elasticity [electronic resource] / by Phillip L. Gould. - 3rd ed. 2013. - XIX, 346 p. online resource.
Introduction and Mathematical Preliminaries -- Traction, Stress and Equilibrium -- Deformations -- Material Behavior -- Formulations, Uniqueness and Solutions Strategies -- Extension, Bending and Torsion -- Two-Dimensional Elasticity -- Thin Plates and Shells -- Dynamic Effects -- Viscoelasticity -- Energy Principles -- Strength and Failure Criteria -- Something New.
Introduction to Linear Elasticity, 3rd Edition, provides an applications-oriented grounding in the tensor-based theory of elasticity for students in mechanical, civil, aeronautical, and biomedical engineering, as well as materials and earth science. The book is distinct from the traditional text aimed at graduate students in solid mechanics by introducing the subject at a level appropriate for advanced undergraduate and beginning graduate students. The author's presentation allows students to apply the basic notions of stress analysis and move on to advanced work in continuum mechanics, plasticity, plate and shell theory, composite materials, viscoelasticity and finite method analysis. This book also: Emphasizes tensor-based approach while still distilling down to explicit notation Provides introduction to theory of plates, theory of shells, wave propagation, viscoelasticity and plasticity accessible to advanced undergraduate students Appropriate for courses following emerging trend of teaching solid mechanics within undergraduate engineering curricula Presents meaningful examples with detailed steps and results Includes instructors' solutions manual.
9781461448334
10.1007/978-1-4614-4833-4 doi
Engineering.
Mechanics.
Continuum mechanics.
Structural mechanics.
Engineering.
Continuum Mechanics and Mechanics of Materials.
Mechanics.
Structural Mechanics.
TA405-409.3 QA808.2
620.1
Introduction to Linear Elasticity [electronic resource] / by Phillip L. Gould. - 3rd ed. 2013. - XIX, 346 p. online resource.
Introduction and Mathematical Preliminaries -- Traction, Stress and Equilibrium -- Deformations -- Material Behavior -- Formulations, Uniqueness and Solutions Strategies -- Extension, Bending and Torsion -- Two-Dimensional Elasticity -- Thin Plates and Shells -- Dynamic Effects -- Viscoelasticity -- Energy Principles -- Strength and Failure Criteria -- Something New.
Introduction to Linear Elasticity, 3rd Edition, provides an applications-oriented grounding in the tensor-based theory of elasticity for students in mechanical, civil, aeronautical, and biomedical engineering, as well as materials and earth science. The book is distinct from the traditional text aimed at graduate students in solid mechanics by introducing the subject at a level appropriate for advanced undergraduate and beginning graduate students. The author's presentation allows students to apply the basic notions of stress analysis and move on to advanced work in continuum mechanics, plasticity, plate and shell theory, composite materials, viscoelasticity and finite method analysis. This book also: Emphasizes tensor-based approach while still distilling down to explicit notation Provides introduction to theory of plates, theory of shells, wave propagation, viscoelasticity and plasticity accessible to advanced undergraduate students Appropriate for courses following emerging trend of teaching solid mechanics within undergraduate engineering curricula Presents meaningful examples with detailed steps and results Includes instructors' solutions manual.
9781461448334
10.1007/978-1-4614-4833-4 doi
Engineering.
Mechanics.
Continuum mechanics.
Structural mechanics.
Engineering.
Continuum Mechanics and Mechanics of Materials.
Mechanics.
Structural Mechanics.
TA405-409.3 QA808.2
620.1