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Engineering Mechanics C. Hartsuijker (Delft University of Technology)

Engineering Mechanics By C. Hartsuijker (Delft University of Technology)

Engineering Mechanics by C. Hartsuijker (Delft University of Technology)

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Summary

Deals with structural and continuum mechanics. Containing hundreds of diagrams, drawings and examples, this work dovetails theoretical developments and figures. It also covers stresses and strains in simple elements subjected to extension, bending, shear and torsion.

Engineering Mechanics Summary

Engineering Mechanics: Stresses, Strains, Displacements: Volume 2 by C. Hartsuijker (Delft University of Technology)

Here is a systematic and clearly laid out text on structural and continuum mechanics. Containing hundreds of diagrams, drawings and examples, this work dovetails theoretical developments and figures in a beautifully conceived treatment of the subject. The book also covers stresses and strains in simple elements subjected to extension, bending, shear and torsion. For elementary structures, simple load displacements are obtained using both classical mathematics descriptions and engineering methods like Williot diagrams.

Engineering Mechanics Reviews

From the reviews: "This is the second of two volumes ... by Hartsuijker and Welleman (both, Dolft Univ. of Technology). ... The concepts and applications are well presented; applications include both basic and advanced levels. The worked out examples nicely illustrate concepts. Figures and tables are clear and help understanding of the concepts. ... In summary, the book is very well written and is a welcome addition to the literature of engineering mechanics. Summing Up: Recommended. Lower-division undergraduates through professionals." (M. G. Prasad, CHOICE, Vol. 45 (7), 2008)

Table of Contents

Preface; Foreword; 1 Material Behaviour; 1.1 Tensile test; 1.2 Stress-strain diagrams; 1.3 Hooke's Law; 2 Bar Subject to Extension; 2.1 The fibre model; 2.2 The three basic relationships; 2.3 Strain diagram and normal stress diagram; 2.4 Normal centre and bar axis; 2.5 Mathematical description of the extension problem; 2.6 Examples relating to change in length and displacement; 2.7 Examples relating to the differential equation for extension; 2.8 Formal approach and engineering practice; 2.9 Problems; 3 Cross-Sectional Properties; 3.1 First moments of area; centroid and normal centre; 3.2 Second moments of area; 3.3 Thin-walled cross-sections; 3.4 Formal approach and engineering practice; 3.5 Problems; 4 Members Subject to Bending and Extension; 4.1 The fibre model; 4.2 Strain diagram and neutral axis; 4.3 The three basic relationships; 4.4 Stress formula and stress diagram; 4.5 Examples relating to the stress formula for bending with extension; 4.6 Section modulus; 4.7 Examples of the stress formula related to bending without extension; 4.8 General stress formula related to the principal directions; 4.9 Core of the cross-section; 4.10 Applications related to the core of the cross-section; 4.11 Mathematical description of the problem of bending with extension; 4.12 Thermal effects; 4.13 Notes for the fibre model and summary of the formulas; 4.14 Problems; 5 Shear Forces and Shear Stresses Due to Bending; 5.1 Shear forces and shear stresses in longitudinal direction; 5.2 Examples relating to shear forces and shear stresses in the longitudinal direction; 5.3 Shear stresses on a cross-sectional plane; 5.4 Examples relating to the shear stress distribution in a cross-section; 5.5 Shear centre; 5.6 Other cases of shear; 5.7 Summary of the formulas and rules; 5.8 Problems; 6 Bar Subject to Torsion; 6.1 Material behaviour in shear; 6.2 Torsion of bars with circular cross-section; 6.3 Torsion of thin-walled cross-sections; 6.4 Numerical examples; 6.5 Summary of theformulas; 6.6 Problems; 7 Deformation of Trusses; 7.1 The behaviour of a single truss member; 7.2 Williot diagram; 7.3 Williot diagram with rigid-body rotation; 7.4 Williot-Mohr diagram; 7.5 Problems; 8 Deformation Due to Bending; 8.1 Direct determination from the moment distribution; 8.2 Differential equation for bending; 8.3 Forget-me-nots; 8.4 Moment area theorems; 8.5 Simply supported beams and the M/EI diagram; 8.6 Problems; 9 Unsymmetrical and Inhomogeneous Cross-Sections; 9.1 Sketch of the problems and required assumptions; 9.2 Kinematic relationships; 9.3 Curvature and neutral axis; 9.4 Normal force and bending moments - centre of force; 9.5 Constitutive relationships for unsymmetrical and/or inhomogeneous cross-sections; 9.6 Plane of loading and plane of curvature - neutral axis; 9.7 The normal centre NC for inhomogeneous cross-sections; 9.8 Stresses due to extension and bending - a straightforward method; 9.9 Applications of the straightforward method; 9.10 Stresses in the principal coordinate method - alternative method; 9.11 Transformation formulae for the bending stiffness tensor; 9.12 Application of the alternative method based on the principal directions; 9.13 Displacements due to bending; 9.14 Maxwell's reciprocal theorem; 9.15 Core of a cross-section; 9.16 Thermal effects; 9.17 Shear flow and shear stresses in arbitrary cross-sections; 9.18 Problems; Index.

Additional information

NPB9781402041235
9781402041235
1402041233
Engineering Mechanics: Stresses, Strains, Displacements: Volume 2 by C. Hartsuijker (Delft University of Technology)
C. Hartsuijker (Delft University of Technology)
Solid Mechanics and its Applications
New
Hardback
Springer-Verlag New York Inc.
2006-05-31
884
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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