Type(s) de contenu et mode(s) de consultation : Texte noté : électronique

Auteur(s) : Case, John  Voir les notices liées en tant qu'auteur
Chilver, A. H.  Voir les notices liées en tant qu'auteur

Titre(s) : Strength of materials [Texte électronique] : an introduction to the analysis of stress and strain / by John Case and A.H. Chilver

Publication : London [England] : Edward Arnold (Publishers) Ltd., cop. 1964

Description matérielle : 1 online resource (402 pages)

Note(s) : Online resource; title from PDF title page (ebrary, viewed November 18, 2014).
Strength of Materials: An Introduction to the Analysis of Stress and Strain is 22-chapter introductory text to the problems of stress and strain analysis. The first chapters explore the fundamental and basic topics on stress and strain, including tension, compression, pin-jointed frames, joints, and connections. The next chapters consider the application of combined simple direct and shearing stresses in practical situations. Other chapters treat topics on plastic, elastic, and strain, as well as problems of thin-walled tubes in bending and torsion. This text also explores the analytical uses

Sujet(s) : Résistance des matériaux -- Simulation, Méthodes de  Voir les notices liées en tant que sujet

Indice(s) Dewey :  620.112 (23e éd.) = Propriétés des matériaux et essais non destructifs (ingénierie)  Voir les notices liées en tant que sujet

Identifiants, prix et caractéristiques : ISBN 9781483196695

Identifiant de la notice  : ark:/12148/cb44666717d

Notice n° :  FRBNF44666717 (notice reprise d'un réservoir extérieur)

Table des matières : Front Cover; Strength of Materials: An Introduction to the Analysis of Stress and Strain; Copyright Page; Preface; Principal Notation; Table of Contents; List of Plates; CHAPTER 1. TENSION AND COMPRESSION; DIRECT STRESSES; 1.1 Introduction; 1.2 Stretching of a steel wire; 1.3 Tensile and compressive stresses; 1.4 Tensile and compressive strains; 1.5 Stress-strain curves for brittle materials; 1.6 Ductile materials; 1.7 Proof stresses; 1.8 Working stresses; 1.9 Load factors; 1.10 Lateral strains due to direct stresses; 1.11 Strength properties of some engineering materials.
1.12 Weight economy of materials1.13 Strain energy and work done in the tensile test; 1.14 Initial stresses; 1.15 Composite bars in tension or compression; 1.16 Temperature stresses; 1.17 Temperature stresses In composite bars; 1.18 Circular ring under radial pressure; 1.19 Creep of materials under sustained stresses; 1.20 Fatigue under repeated stresses; PROBLEMS; CHAPTER 2. PIN-JOINTED FRAMES; 2.1 Introduction; 2.2 Statically-determinate pin-jointed frames; 2.3 Displacements of statically-determinate frames; 2.4 Frames with non-linear members; 2.5 Statically-indeterminate problems.
CHAPTER 3. SHEARING STRESSES3.1 Introduction; 3.2 Measurement of shearing stress; 3.3 Complementary shearing stress; 3.4 Shearing strain; 3.5 Strain energy due to shearing actions; PROBLEMS; CHAPTER 4. JOINTS AND CONNECTIONS; 4.1 Riveted joints; 4.2 Modes of failure of simple riveted joints; 4.3 Efficiency of a connection; 4.4 Bolted joints; 4.5 Group-riveted joints; 4.6 Eccentric loading of bolted and riveted connections; 4.7 Welded connections; PROBLEMS; CHAPTER 5. ANALYSIS OF STRESS AND STRAIN; 5.1 Introduction; 5.2 Shearing stresses in a tensile test-specimen.
5.3 Strain figures in mild-steel Lüder's lines; 5.4 Failure of materials in compression; 5.5 General two-dimensional stress system; 5.6 Stresses on an inclined plane; 5.7 Values of the principal stresses; 5.8 Maximum shearing stress; 5.9 Mohr's circle of stress; 5.10 Strains in an inclined direction; 5.11 Mohr's circle of strain; 5.12 Elastic stress-strain relations; 5.13 Principal stresses and strains; 5.14 Relation between E, G and v; 5.15 Strain 'rosettes'; 5.16 Strain energy for a two-dimensional stress system; 5.17 Three-dimensional stress systems.
5.18 Volumetric strain in a material under hydrostatic pressure5.19 Strain energy of distortion; 5.20 Yielding of ductile materials under combined stresses; 5.21 Elastic breakdown and failure of brittle materials; PROBLEMS; CHAPTER 6. THIN SHELLS UNDER INTERNAL PRESSURE; 6.1 Thin cylindrical shell of circular cross-section; 6.2 Thin spherical shell; 6.3 Cylindrical shell with hemispherical ends; PROBLEMS; CHAPTER 7. BENDING MOMENTS AND SHEARING FORCES; 7.1 Introduction; 7.2 Concentrated and distributed loads.