Mechanics of engineering materials / P.P. Benham, R.J. Crawford & C.G. Armstrong
Publication details: Harlow, England : Prentice Hall, 1996.Edition: 2nd editionDescription: xiii, 627 p. : ill. ; 25 cmISBN:- 9780582251649
- 0582251648
- 620.11 22 BEN
Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Book Closed Access | Engineering Library | 620.1123 BEN 1 (Browse shelf(Opens below)) | 1 | Available | BUML23080315 | |
Book Closed Access | Engineering Library | 620.1123 BEN 2 (Browse shelf(Opens below)) | 2 | Available | BUML23080314 |
CONTENTS
1. Statically Determinate force systems
1.1 Revision of statics
1.2 Resultant for of moment
1.3 Types of structural and solid-body components
1.4 Types of support and connection for structural components
etc
2. Statically determinate stress Systems
2.1 Stress: normal, shear and hydrostatic
2.2 A statically determinate stress system
2.3 Assumption and approximations
etc
3. Stress- Strain relations
3.1 Deformation
3.2 Strain
3.3 Elastic load-deformation behaviour of materials
etc
4. Statically Indeterminate Stress Systems
4.1 Interaction between components of different stiffness
4.2 Restraint of thermal strain
4.3 Volume changes
etc
5. Torsion
5.1 Torsion of a thin-walled cylinder
5.2 Torsion of a solid circular shaft
5.3 Relation between stress, strain and angle of twist
etc
6. Bending: Stress
6.1 Shear force and bending-moment distribution
6.2 Relationships between loading and bending moment
6.3 Stress distribution in pure bending
6.4 Deformation in pure bending
etc
7. Bending: Slope Deflection
7.1 The curvature-bending-moment relationship
7.2 Slope and deflection by the double- integration method
7.3 Discontinuous loading: Macaulay's method
etc
8. Statistically Indeterminate Beans
8.1 Double-integration method
8.2 Superposition method
8.3 Moment-area method
etc
9. Energy Mothods
9.1 Work done by a single load
9.2 Work done buy a single moment
9.3 Elastic strain energy: normal stress and shear stress
etc
10. Buckling Instability
10.1 Stability of equilibrium
10.2 Buckling characteristics for real struts
10.3 Eccentric loading of Slander columns
etc
11. Stress and strain Transformatioms
11.1 Symbols, signs and elements
11.2 Stresses on plane inclined to the direction of loading
11.3 Elements subjected to normal stresses
11.4 Elements subjected to Shear stresses
etc
12.Yield Criteria and stress Concentration
12.1 Yield Criteria: Ductile materials
12.2 Fracture criteria: Brittle materials
12.3 Strength of laminates
etc
13.Variation of strength and strains
13.1 Equilibrium equations: plane stress Cartesian co-ordinates
13.2 Equilibrium equations: plane stress cylindrical co-ordinates
13.3 Strain in terms of displacement : Cartesian co-ordinates
etc
14. Application of the equilibrium and Strain-Displacement relationship
14.1 Boundary conditions
14.2 Shear stress in beam
14.3 Transverse normal stress in a beam
etc
15. Elementary plasticity
15.1 Plastic bending of beams: Plastic moment
15.2 Plastic collapse of beams
15.3 Plastic torsion of shifts: plastic torque
etc
16. Thin plates and shells
16.1 Assumption for small deflection of thin plates
16.2 Relationship between moments and curvatures for pure bending
16.3 Relationship between bending moment and bending stress
etc
17. Finite Element method
17.1 Principle of finite element method
17.2 Analysis of uniaxial bars
17.3 Analysis of frameworks
etc
18.Tension ,Compression, Torsion and Hardness
18.1 Stress-strain response in a uniaxial tension test
18.2 Stress strain response in a compression test
18.3 Stress-strain response in torsion test
etc
19. Fracture mechanics
19.1 Fracture concepts
19.2 Linear-elastic fracture mechanics
19.3 Strain energy release rate
etc
20. Fatigue
20.1 Forms of stress cycle
20.2 Test methods
20.3 Fatigue data
etc
21. Creep and Viscoelasticity
21.1 Stress-strain-time-temperature relationship
21.2 Empirical representations of creep behaviour
21.3 Creep-rupture testing
21.4 Tension creep test equipment
etc
Index : p.624-627.
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