Strength of Materials in Si Units

av B S Basavarajaiah, P Mahadevappa  (inbunden, 2010)

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  • Inbunden (hardback)
  • Språk: Engelska
  • Antal sidor: 768
  • Utg.datum: 2010-09-01
  • Upplaga: 3 Rev ed
  • Förlag: CRC Press Inc
  • Dimensioner: 254 x 190 x 50 mm
  • Vikt: 1700 g
  • Antal komponenter: 1
  • ISBN: 9781439854198

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... [The authors] have drawn on their long experience as teachers to present a well-organized text for students of engineering and architecture. Each chapter offers definitions, analysis of problems, derivations, applications, worked problems (380 in all), and exercises. Coverage begins with simple, then compound, stresses and strains, and proceeds through bending moments and shearing forces, bending stresses in beams, deflection of beams, tursion, fixed and continuous beams, columns and struts, thin and thick cylinders, and theories of elastic failure. ... -SciTech Book News, February 2011

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Innehållsförteckning

Simple Stresses and Strains Definition Elasticity Hooke's Law Stress-Strain Diagram Factor of Safety State of Simple Shear Modulus of Rigidity (Shear Modulus) Bulk Modulus Poisson's Ratio Relation between the Modulus of Rigidity and Young's Modulus of Elasticity and the Bulk Modulus Bars of Varying Sections Stresses due to Self Weight Compound Bars Temperature Stresses Strain Energy Exercise problems Compound Stresses and Strains Introduction Stresses on an Inclined Plane Element Subjected to Two Normal Stresses Ellipse of Stress General Two-Dimensional Stress System Principal Stresses and Principal Planes Mohr's Circle of Stress Analysis of Strain Mohr's Strain Circle Strain Rosettes Exercise problems Bending Moments and Shearing Forces Introduction Beam Types of Loads Shear Force and Bending Moment Relationship between Load, Shear Force and Bending Moment Types of Supports Bending Moments and Shear Force Diagrams Inclined Loading on Beams To Draw the Loading and B.M.D from S.F.D Exercise problems Bending Stresses in Beams Theory of Simple Bending Neutral Axis Moment of Resistance (M.R.) Section Modulus Flitched Beam Beams of Uniform Strength Shearing Stresses in Beams Principal Stresses at a Point in a Beam Exercise problems Deflection of Beams Introduction Circular Bending Differential Equation for the Deflection Curve Double Integration Method Macaulay's Method Deflection by Strain Energy Method Moment-Area Method Deflection Due To Shear Propped Cantilevers and Propped Beams Deflection due to Impact Exercise problems Torsion Introduction Pure Torsion Relation between Twisting Moment, Shear Stress and Angle of Twist Polar Modulus Torsional Rigidity Power Transmitted by a Shaft Strain Energy in Torsion Combined Bending and Torsion Equivalent Bending Moment Equivalent Torque Composite Shafts Torsion of a Tapering shaft Torsion of Statically Indeterminate Members Springs Close-Coiled Helical Springs Springs in Series and Parallel Open-Coiled Helical Springs Leaf, Laminated or Carriage Springs Quarter Elliptic Springs Closed-coiled Conical Springs Flat Spiral Springs Exercise problems Fixed and Continuous Beams Fixed Beams Moment-Area Method for Fixed Beams Macaulay's Method for Fixed Beams Effect of Sinking of Supports (Supports at Different Levels) Fixed Beam Subjected to a Couple M Applied Eccentrically on the Span Continuous Beam Exercise problems Columns and Struts Definitions Axially Loaded Short Columns Eccentrically Loaded Short Columns Axially Loaded Slender Columns (Euler's Equation) Limitations of Euler's Formula Intermediate Columns (Tangent Modulus Equations) Empirical Formulae for the Column's Design Eccentrically Loaded Long Columns Columns with Initial Curvature Laterally Loaded Struts Laterally Loaded Ties Perry Robertson Formula Built-up Columns Exercise problems Thin and Thick Cylinders Thin Cylindrical and Spherical Shells Thick Cylindrical and Spherical Shells Exercise problems Theories of Elastic Failure Introduction Maximum Principal Stress Theory Maximum Shearing Stress Theory (Coulomb's Theory) Strain Energy Theory (Beltrami and Haigh) Shear Strain Energy Theory (Distortion Energy Theory) (Huber) Maximum Strain Theory (St. Venant's Theory) Octahedral Shear Stress Theory Exercise problems Appendix Index

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