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

Auteur(s) : Black, Peter  Voir les notices liées en tant qu'auteur

Titre(s) : Strength of Materials [Texte électronique] : a Course for Students

Publication : Burlington : Elsevier Science, 1966

Description matérielle : 1 online resource (467 pages)

Note(s) : Print version record.
Strength of Materials: A Course for Students deals with theories of stress analysis. The book describes simple stress, strain, and strain energy and defines, with appropriate formulas, commonly used terms such as load, elasticity, tensile test, and temperature stresses. The text then analyzes the moment when an applied force bends a subject beam under different load conditions. The formula for the first and second moments of area and the formula for the first and second moments of mass are explained. The book also describes the unstrained or neutral plane when a bending moment acting on a par

Sujet(s) : Résistance des matériaux  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 9780080115559

Identifiant de la notice  : ark:/12148/cb44624951t

Notice n° :  FRBNF44624951 (notice reprise d'un réservoir extérieur)

Table des matières : Front Cover; Strength of Materials: A Course for Students; Copyright Page; Table of Contents; PREFACE; SYMBOLS; CHAPTER I . SIMPLE STRESS, STRAIN AND STRAIN ENERGY; Load; Stress; Strain; Elasticity; Rigidity; The Tensile Test; Strain Energy; Simple Load Shared by Two Materials-Compound Column; Temperature Stresses; Examples; CHAPTER II. BEAMS I-BENDING MOMENT; Moment of a Force Producing Bending; Beam Rigidly Supported at One end with Concentrated Load at the Other; Cantilever with Several Concentrated Loads; Simple Span with Central Load; Simply Supported Beam with Several Concentrated Loads.
Beam with Loaded Ends Overhanging SupportsGeneral Case; Cantilever with Uniform Load; Simply Supported Beam with Uniform Load; Uniformly Loaded Beam with Simple Supports Not at Ends; Examples II; CHAPTER III. 1st AND 2nd MOMENTS; Centroid; 1st Moment of Area; 1st Moment of Mass; 2nd Moment of Area; 2nd Moment of Mass; Examples III; CHAPTER IV. BEAMS II-SIMPLE BENDING; Simple Bending; Examples IV; CHAPTER V. BEAMS III-SIMPLE SHEAR; Shear Force in Beams (F); Relation Between w, F and M; Examples V; CHAPTER VI. BENDING WITH DIRECT STRESS; Composite Beams; Reinforced Concrete Beams.
Bending Combined with Direct StressExamples VI; CHAPTER VII. TORSION; Modulus of Rigidity; Torsional Strain Energy; Helical Spring-Effects of Axial Load; Examples VII; CHAPTER VIII. COMPLEX STRESS I; Shear Stress Resulting from a Tensile Load; Complementary Shear; Bulk or Volumetric Strain; Poisson's Ratio; Relation Between the Elastic Constants; Examples VIII; CHAPTER IX. COMPLEX STRESS I I; Principal Planes and Stresses; Principal Strains; Theories of Elastic Failure; Combined Bending and Torsion; Examples IX; CHAPTER X. BEAMS IV-DEFLECTION; Flexure and Radius of Curvature.
Moment-Area MethodLeaf, Laminated or Plate Springs; Summary of Conventions used in the Theory of Simple Bending; Examples X; CHAPTER XI. STRAIN ENERGY OF BENDING; Examples XI; CHAPTER XII. SHEAR STRESS DUE TO BENDING; Shear in Beams; Examples XII; CHAPTER XIII. STRUTS; Struts Subject to Axial Load; Examples XIII; CHAPTER XIV. THICK AND THIN CYLINDERS; Stresses in a Thick Tube; Tensile Stress in a Thin Rim Due to Rotation; Change in Volume Under Load; Examples XIV; INDEX.