Design for Thermal Stresses (eBook)
528 Seiten
John Wiley & Sons (Verlag)
978-1-118-09453-2 (ISBN)
Thermal stress concerns arise in many engineering situations,
from aerospace structures to nuclear fuel rods to concrete highway
slabs on a hot summer day. Having the tools to understand and
alleviate these potential stresses is key for engineers in
effectively executing a wide range of modern design tasks.
Design for Thermal Stresses provides an accessible and balanced
resource geared towards real-world applications. Presenting both
the analysis and synthesis needed for accurate design, the book
emphasizes key principles, techniques, and approaches for solving
thermal stress problems. Moving from basic to advanced topics,
chapters cover:
* Bars, beams, and trusses from a "strength of materials"
perspective
* Plates, shells, and thick-walled vessels from a "theory of
elasticity" perspective
* Thermal buckling in columns, beams, plates, and shells
Written for students and working engineers, this book features
numerous sample problems demonstrating concepts at work. In
addition, appendices include important SI units, relevant material
properties, and mathematical functions such as Bessel and Kelvin
functions, as well as characteristics of matrices and determinants
required for designing plates and shells. Suitable as either a
working reference or an upper-level academic text, Design for
Thermal Stresses gives students and professional engineers the
information they need to meet today's thermal stress design
challenges.
Randall F. Barron is Professor Emeritus of Mechanical Engineering at Louisiana Tech University in Ruston, Louisiana. He received his BS in mechanical engineering from Louisiana Tech University, and his MS and PhD in mechanical engineering from The Ohio State University in Columbus, Ohio. He is the author of three college-level textbooks: Cryogenic Systems, Cryogenic Heat Transfer, and Industrial Noise Control and Acoustics. Brian R. Barron is a lecturer in mathematics and statistics at Louisiana Tech University in Ruston, Louisiana. He received his BS degree in mathematics education from Louisiana Tech University, his MDiv from St. Paul School of Theology in Kansas City, Missouri, and his MS in mathematics and PhD in computational analysis and modeling from Louisiana Tech University.
Preface.
Nomenclature.
Chapter 1. Introduction.
1.1 Definition of Thermal Stress.
1.2 Thermal-Mechanical Design.
1.3 Factor of Safety in Design.
1.4 Thermal Expansion Coefficient.
1.5 Young's Modulus.
1.6 Poisson's Ratio.
1.7 Other Elastic Moduli.
1.8 Thermal Diffusivity.
1.9 Thermal Shock Parameters.
1.10 Historical Note.
Chapter 2. Thermal Stresses in Bars.
2.1 Stress and Strain.
2.2 Bar Between Two Supports.
2.3 Bars in Parallel.
2.4 Bars With Partial Removal of Constraints.
2.5 Non-uniform Temperature Distribution.
2.6 Historical Note.
Chapter 3. Thermal Bending.
3.1 Limits on the analysis.
3.2 Stress relationships.
3.3 Displacement relations.
3.4 General thermal bending relations.
3.5 Shear bending examples.
3.6 Beam bending examples.
3.7 Thermal Bowing of Pipes.
3.8 Historical Note.
4. Thermal Stresses in Trusses and Frames.
4.1 Elastic Energy Method.
4.2 Unit Load Method.
4.3 Trusses With External Constraints.
4.4 Trusses With Internal Constraints.
4.5 The Finite Element Method.
4.6 Elastic Energy in Bending.
4.7 Pipe Thermal Expansion Loops.
4.8 Pipe Bends.
4.9 Elastic Energy in Torsion.
4.10 Historical Note.
5. Basic Equations of Thermoelasticity.
5.1 Introduction.
5.2 Strain Relationships.
5.3 Stress Relationships.
5.4 Stress-Strain Relations.
5.5 Temperature Field Equation.
5.6 Reduction of the Governing Equations.
5.7 Historical Note.
Chapter 6. Plane Stress.
6.1 Introduction.
6.2 Stress Resultants.
6.3 Circular Plate With a Hot Spot.
6.4 Two-Dimensional Problems.
6.5 Plate With a Circular Hole.
6.6 Finite Element Solution for Plane Strain Problems.
6.7 Historical Note.
Chapter 7. Bending Thermal Stresses in Plates.
7.1 Introduction.
7.2 Governing Equations for Bending of Rectangular Plates.
7.3 Boundary Conditions For Plate Bending.
7.4 Bending of Simply-Supported Rectangular Plates.
7.5 Rectangular Plates With Two-Dimensional Temperature Distributions.
7.6 Axisymmetrical Bending of Circular Plates.
7.7 Axisymmetric Thermal Bending Examples.
7.8 Circular Plates With a Two-Dimensional Temperature Distribution.
7.9 Historical Note.
Chapter 8. Thermal Stresses in Shells.
8.1 Introduction.
8.2 Cylindrical Shells with Axisymmetrical Loading.
8.3 Cooldown of Ring-Shiffened Cylindrical Vessels.
8.4 Cylindrical Vessels with Axial Temperature Variation.
8.5 Short Cylinders.
8.6 Axisymmetrical Loading of Spherical Shells.
8.7 Approximate Analysis of Spherical Shells Under Axisymmetric Loading.
8.8 Historical Note.
Chapter 9. Thermal Stresses in Thick-Walled Vessels.
9.1 Introduction.
9.2 Governing Equations for Plane Strain.
9.3 Hollow Cylinder with Steady-state Heat Transfer.
9.4 Solid Cylinder.
9.5 Thick-walled Spherical Vessels.
9.6 Solid Spheres.
9.7 Historical Note.
Chapter 10. Thermoelastic Stability.
10.1 Introduction.
10.2 Thermal Buckling of Columns.
10.3 General Formulation for Beam-Columns.
10.4 Post-buckling Behavior of Columns.
10.5 Lateral Thermal Buckling of Beams.
10.6 Symmetrical Buckling of Circular Plates.
10.7 Thermal Buckling of Rectangular Shells.
10.8 Thermal Buckling of Cylindrical Shells.
10.9 Historical Note.
Appendix A. Preferred prefixes in the SI system of units.
Appendix B. Properties of material at 300 K.
Appendix C. Properties of selected materials as a function of temperature.
Appendix D. Bessel Functions.
Appendix E. Kelvin Functions.
Appendix F. Matrices and determinants.
Erscheint lt. Verlag | 7.9.2011 |
---|---|
Sprache | englisch |
Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Thermodynamik |
Technik ► Maschinenbau | |
Schlagworte | chemical thermodynamics • Chemie • Chemische Thermodynamik • Chemistry • Maschinenbau • mechanical engineering • Physics • Physik • Thermal Physics & Statistical Mechanics • thermodynamics • Thermodynamik • Wärmelehre u. Statistische Mechanik • Wärmelehre u. Statistische Mechanik |
ISBN-10 | 1-118-09453-0 / 1118094530 |
ISBN-13 | 978-1-118-09453-2 / 9781118094532 |
Haben Sie eine Frage zum Produkt? |
Größe: 22,1 MB
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