Thermal Stresses in Plane Strain of Porous Elastic Solids

The induced magnetic fields generated by a line mechanical singularity in a magnetized elastic half plane are investigated in this paper. One version of linear theory for soft ferromagnetic elastic solids which has been developed by Pao and Yeh (1973) is adopted to analyze the plane strain problem undertaken. By applying the Fourier transform technique, the exact solutions for the generated magnetic inductions due to various mechanical singularities such as a single force, a dipole, and single couple are obtained in a closed form. The distributions of the generated inductions on the surface are shown with figures.

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Thermal Stresses in Layered Electrical Assemblies Bonded With Solder

Journal of Electronic Packaging ◽

10.1115/1.2905419 ◽

1991 ◽

Vol 113 (4) ◽

pp. 350-354 ◽

Cited By ~ 29

Author(s):

H. S. Morgan

Keyword(s):

Residual Stresses ◽

Plane Strain ◽

3D Model ◽

Thermal Stresses ◽

Three Dimensional ◽

Creep Models ◽

Strain Model ◽

Maximum Stresses ◽

Generalized Plane Strain ◽

Plane Strain Model

Thermal stresses in a layered electrical assembly joined with solder are computed with plane strain, generalized plane strain, and three-dimensional (3D) finite element models to assess the accuracy of the two-dimensional (2D) modeling assumptions. Cases in which the solder is treated as an elastic and as a creeping material are considered. Comparison of the various solutions shows that, away from the corners, the generalized plane strain model produces residual stresses that are identical to those computed with the 3D model. Although the generalized plane strain model cannot capture corner stresses, the maximum stresses computed with this 2D model are, for the mesh discretization used, within 12 percent of the corner stresses computed with the 3D model when the solder is modeled elastically and within 5 percent when the solder is modeled as a creeping material. Plane strain is not a valid assumption for predicting thermal stresses, especially when creep of the solder is modeled. The effect of cooling rate on the residual stresses computed with creep models is illustrated.

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Plane strain dynamics of elastic solids with intrinsic boundary elasticity, with application to surface wave propagation

Journal of the Mechanics and Physics of Solids ◽

10.1016/s0022-5096(02)00006-6 ◽

2002 ◽

Vol 50 (9) ◽

pp. 1869-1896 ◽

Cited By ~ 15

Author(s):

R.W. Ogden ◽

D.J. Steigmann

Keyword(s):

Wave Propagation ◽

Surface Wave ◽

Plane Strain ◽

Elastic Solids ◽

Surface Wave Propagation

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Finite plane strain problems for compressible elastic solids: General solution and volume changes

Rheologica Acta ◽

10.1007/bf01527908 ◽

1977 ◽

Vol 16 (2) ◽

pp. 113-122 ◽

Cited By ~ 8

Author(s):

D. A. Isherwood ◽

R. W. Ogden

Keyword(s):

General Solution ◽

Plane Strain ◽

Finite Plane ◽

Elastic Solids ◽

Volume Changes

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Linearized plane strain of a mixture of two elastic solids. II

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100043577 ◽

1968 ◽

Vol 64 (3) ◽

pp. 915-930 ◽

Cited By ~ 2

Author(s):

T. R. Steel

Keyword(s):

Plane Strain ◽

Complex Potential ◽

Potential Functions ◽

Equilibrium Equations ◽

Elastic Solids

AbstractIn a recent paper (1), we derived the solutions to the equilibrium equations for linearized plane strain of an isotropic mixture of two elastic solids. The solutions were given in terms of four complex potential functions. Here we examine the properties of these solutions and evaluate the forces and couples across an arc in the mixture.

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Thermal Stresses Induced into Two Plane Strain Sectors Having Different Material Properties

Journal of Pressure Vessel Technology ◽

10.1115/1.3454516 ◽

1977 ◽

Vol 99 (1) ◽

pp. 26-30

Author(s):

I-Chih Wang ◽

J. P. Eimermacher

Keyword(s):

Temperature Distribution ◽

Physical Properties ◽

Plane Strain ◽

Material Properties ◽

Thermal Stresses ◽

Structural Characteristics ◽

Uniform Temperature ◽

General Application ◽

Numerical Examples ◽

Stress Functions

Thermal stresses induced into two joined plane strain sectors having different physical properties and subjected to a uniform temperature distribution are investigated. Considering the elastic equations of equilibrium, compatibility, the stress-strain equations and appropriate boundary conditions, airy stress functions are formulated which describe the structural characteristics of the sectors. Stress and displacement relations are then obtained. Numerical examples are given illustrating the usage and general application of the derived expressions.

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Generalized plane strain of chiral elastic solids

Mechanics Research Communications ◽

10.1016/j.mechrescom.2020.103564 ◽

2020 ◽

Vol 107 ◽

pp. 103564

Author(s):

D. Ieşan

Keyword(s):

Plane Strain ◽

Elastic Solids ◽

Generalized Plane Strain

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Thermal Stresses in Transversely Isotropic Semi-Infinite Elastic Solids

Journal of Applied Mechanics ◽

10.1115/1.4011693 ◽

1958 ◽

Vol 25 (1) ◽

pp. 86-88

Author(s):

Brahmadev Sharma

Keyword(s):

Thermal Stress ◽

Steady State ◽

Thermal Stresses ◽

Elastic Solid ◽

Transversely Isotropic ◽

Elastic Solids ◽

Stress Problem ◽

Method Of Solution ◽

General Method

Abstract A general method of solution of the steady-state thermal-stress problem of a transversely isotropic semi-infinite elastic solid is given in this paper.

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