Introduction to unified strength theory / Mao-Hong Yu, Shu-Qui Yu.
Strength theory deals with the yield or failure of materials under complex stress state. It is very important in mechanics of materials, strength of structures, and mechanical and civil engineering. Unified strength theory is a series of yield criteria and failure criteria other than a single streng...
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Full Text (via Taylor & Francis) |
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| Main Authors: | , |
| Format: | eBook |
| Language: | English |
| Published: |
Leiden :
CRC Press/Balkema,
2019.
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| Series: | CRC focus series.
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Table of Contents:
- Cover; Half Title; Title; Copyright; Contents; Preface; 1 Introduction; 1.1 Strength of materials in tension and compression; 1.2 Strength of materials under complex stress; 1.3 Single strength theory; 1.4 Voigt-Timoshenko conundrum; 1.5 The development of unified strength theory; 1.6 Applications of the Yu-UST; 1.7 Summary; References; Readings; 2 Stress state and elements; 2.1 Introduction; 2.2 Stresses on the oblique plane; 2.3 Cubic hexahedron and octahedron; 2.4 Mohr stress circle; 2.5 Stress space; 2.6 Summary; References; Readings; 3 Yu-unified strength theory (Yu-UST)
- 5.7 Strength design of an automobile transmission shaft: outer diameter design of drive shaft5.8 Strength design of a transmission axle; 5.9 Unified solution for elastic limit pressure of a thick-walled cylinder subjected to internal pressure; 5.10 Analysis of plastic ultimate pressure for a thick-walled cylinder with internal pressure; 5.11 Unified solution of plastic limit internal pressure for a thick-walled cylinder with the same tensile strength and compressive strength materials.
- 5.12 Unified solution of plastic limit internal pressure for a thick-walled cylinder with different tensile strength and compressive strength materials5.13 Barrel strength design of artillery; 5.14 The economic significance of the use of Yu-unified strength theory; 5.15 Procedure of the applications of the Yu-UST and Yu-UYC; 5.16 Summary; References; Readings.
- 3.1 Introduction3.2 The Yu-unified strength theory; 3.3 Special cases of the Yu-UST for different parameter b; 3.4 Limit loci of the Yu-UST by varying parameter b in the π-plane; 3.5 Variation of limit loci of the Yu-UST when α = 1/2; 3.6 Limit surfaces of the Yu-UST in principal stress space; 3.7 Limit loci of the Yu-UST in plane stress state; 3.8 Limit loci of the Yu-UST under the σ-τ combined stress state; 3.9 Experiment verification of Yu-UST; 3.10 Summary; References; Readings; 4 Yu-unified yield criteria for metals; 4.1 Introduction; 4.2 The Yu-unified yield criterion (Yu-UYC)
- 4.3 Special cases of the Yu-UYC4.4 Experimental determination of parameter b; 4.5 Yu-UYC in the plane stress state; 4.6 Yu-UYC in the σ-τ stress state; 4.7 Yield surfaces of the Yu-UYC; 4.8 Summary; References; Readings; 5 Applications of the Yu-UST and Yu-UYC; 5.1 Introduction; 5.2 Strength design of a thin-walled pressure cylinder; 5.3 Thickness design of a thin-walled pressure vessel; 5.4 Strength design of a gun tube of trench mortar; 5.5 Strength design of an oil pipe; 5.6 Strength design of an automobile transmission shaft: maximum allowable torque.