Mechanical technology for higher engineering technicians.

Mechanical Technology for Higher Engineering Technicians deals with the mechanics of machines, thermodynamics, and mechanics of fluids. This book presents discussions and examples that deal with the strength of materials, technology of machines, and techniques used by professional engineers. The boo...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Black, Peter, 1915-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford, New York, Pergamon Press [1972]
Edición:[1st ed.].
Temas:
Mechanical engineering.
G�enie m�ecanique.
mechanical engineering.
Mechanical engineering
Acceso en línea:Texto completo
Tabla de Contenidos:
  • SIMPLY SUPPORTED BEAM WITH CONCENTRATED LOAD AT CENTRESIMPLY SUPPORTED BEAM WITH UNIFORMLY DISTRIBUTED LOAD; BEAM SUBJECTED TO A UNIFORM BENDING MOMENT; SIMPLY SUPPORTED BEAM WITH CONCENTRATED NON-CENTRAL LOAD; LEAF SPRINGS; CURVATURE; MULTI-LEAF SPRING; QUARTER ELLIPTIC SPRING; STRAIN ENERGY OF BENDING; SIMPLY SUPPORTED BEAM WITH CONCENTRATED LOAD AT CENTRE; CANTILEVER WITH UNIFORM LOAD; THE FIRST THEOREM OF CASTIGLIANO; HORIZONTAL CANTILEVER WITH CONCENTRATED LOAD AT FREE END; SIMPLY SUPPORTED BEAM LOADED AS IN FIGURE 55; SHEAR STRESS DUE TO BENDING; RECTANGULAR SECTION; I-SECTION
  • SOLID CIRCULAR SECTIONEXAMPLES 2; CHAPTER 3. COMPLEX STRESS; SHEAR STRESS RESULTING FROM A TENSILE LOAD; COMPLEMENTARY SHEAR; VOLUMETRIC STRAIN; POISSON'S RATIO; THE RELATION BETWEEN THE ELASTIC CONSTANTS; PRINCIPAL PLANES AND STRESSES; MAXIMUM SHEAR STRESS; THE M�OHR CIRCLE; SIMPLE THEORY OF ELASTIC FAILURE; MAXIMUM PRINCIPAL STRESS THEORY (RANKINE); MAXIMUM SHEAR STRESS THEORY (COULOMB, TRESCA AND GUEST); COMBINED BENDING AND TORSION; EQUIVALENT TORQUE; EXAMPLES 3; CHAPTER 4. STRUTS AND CYLINDERS; CRITICAL VALUE OF AXIAL LOAD; RANKINE-GORDON FORMULA; THICK CYLINDER UNDER PRESSURE
  • SOLID SHAFT UNDER EXTERNAL PRESSURETHIN CYLINDERS SUBJECT TO INTERNAL PRESSURE; THIN CYLINDER SUBJECT TO ROTATION; CHANGE IN VOLUME OF A THIN CYLINDER UNDER INTERNAL PRESSURE; EXAMPLES 4; CHAPTER 5. DYNAMICS; FUNDAMENTALS; GYROSCOPIC EFFECTS; ACCELERATION OF A TRAIN OF GEARS; EPICYCLIC GEARS; BALANCING; EXAMPLES 5; CHAPTER 6. MECHANISMS; THE VELOCITY DIAGRAM; THE ACCELERATION DIAGRAM; EXAMPLES 6; CHAPTER 7. FLUID MECHANICS; INTRODUCTION; Definitions; Effect of Depth on Pressure; Force on a Submerged Plane Surface; Centre of Pressure; Force on a Submerged Curved Surface
  • Hydrostatic Head and EnergySteady Flow and Kinetic Energy; Viscosity; Dynamic Viscosity; Kinematic Viscosity; Velocity Gradient; Reynolds Number; Steady Laminar Flow along a Uniform Pipe; Conversion of Units of Dynamic Viscosity; Steady Turbulent Flow along a Uniform Pipe; The Darcy Formula; Steady Flow through a Sudden Increase in Section; Steady Flow through a Sudden Reduction in Section; EXAMPLES 7; CHAPTER 8. COMBUSTION AND HEAT TRANSFER; CONCEPTS AND DEFINITIONS; PROPERTIES AND BEHAVIOUR OF GASES; HEAT TRANSFER; EXAMPLES 8; CHAPTER 9. TRIBOENGINEERING

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