Engineering Mechanics 2: Strength of Materials

Beschreibung

This book follows the classical division of engineering mechanics as taught at universities in Germany and is devoted to strength of materials, i.e. the determination of stresses and of deformations in elastic bodies. The aim of this book is to provide students with a clear introduction and to enable them to formulate and solve engineering problems in this field. For this purpose, the book provides a number of examples.

The Contents

Introduction to linear elasticity – Plane stress state – Bars – Beams – Beam deflections – Shear stresses in beams – Torsion – Energy methods – Buckling of bars

This book follows the classical division of engineering mechanics as taught at universities in Germany and is devoted to strength of materials, i.e. the determination of stresses and of deformations in elastic bodies. The aim of this book is to provide students with a clear introduction and to enable them to formulate and solve engineering problems in this field. For this purpose, the book provides a number of examples.

This book is intended for university students of mechanical engineering, civil engineering, mechanics, but also all other courses in which the contents of this book play a role.

The Contents

Introduction to linear elasticity – Plane stress state – Bars – Beams – Beam deflections – Shear stresses in beams – Torsion – Energy methods – Buckling of bars

Autor*in

Christian Mittelstedt

Themen in »Engineering Mechanics 2: Strength of Materials«

Engineering Mechanics mechanics of materials Strength of Materials linear elasticity Plane stress state Engineering Mechanics: Bars and Bar Systems Beams Beam deflections Shear stresses in beams Torsion in beams and bars Energy Methods in Engineering Mechanics The principle of virtual forces Reciprocity theorems Buckling of bars and Euler cases The Euler-Bernoulli beam

Stimmen zu »Engineering Mechanics 2: Strength of Materials«

Details

Link teilen