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The tensile deformation of pure vanadium single crystals at low temperaturesSnowball, Robert Forrester January 1960 (has links)
An investigation of the low temperature tensile properties of vanadium single crystals was carried out, using zone-refined metal.
Single crystals of predetermined axial [110] orientation were grown by a melt solidification technique, using an electron beam, floating-zone refiner. Tensile specimens were prepared from these single crystals.
A plot of yield stress versus test temperature was found to be discontinuous and consisted of two curves which intersected at -125° C. The plot of log yield stress versus reciprocal temperature yielded two straight lines which also intersected at -125° C.
The slip system was identified as <111>{112}, which is different from that found for iron single crystals.
X-ray, metallographic and electrical resistance data indicate that the phenomenon is primarily a yield point effect. The results of tensile tests performed on single crystals at a very low strain rate, and on polycrystalline specimens indicated that the temperature dependence of yield stress is itself orientation dependent.
Three possible explanations of the unusual temperature dependence of yield stress are given:
(1) A change in deformation mechanism occurs, for example, from slip to twinning.
(2) A minor ordering reaction occurs.
(3) A change in the mechanism by which dislocations are unlocked from their atmospheres occurs; for example, two impurity atmospheres surrounding different dislocations, each impurity showing a separate temperature dependence of yield stress. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate
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Thermo-plastic constitutive relations and a variational solution technique using finite elementsCharlwood, Robin Gurney January 1970 (has links)
This study is concerned with a thermo-elasto-plastic continuum in which the thermodynamic coupling between material deformations, heat generation and flow are included. The elasto-plastic behavior is represented by a linear "rate-type" theory and restricted to infinitesimal deformations. The heat flow equations are posed in incremental form for the linear theory of heat conduction. The theory is such that the conservation laws of thermodynamics are satisfied. A displacement formulation is used and the field equations are shown to be linear operator equations. The operators are tested for symmetry and positive-definiteness in order to test their suitability for solution by a variational method. It is shown that the special case of thermo-elasticity may be solved by minimisation of a functional and that convergence of approximate solutions may be predicted. In the general case of thermo-elasto-plasticity, the operator is shown to be unsymmetric. Therefore an iterative functional is introduced in order to obtain a solution by a variational method. Approximate solutions to some illustrative problems are found using a finite-element-formulation, and it is shown that the results are consistent with expected physical behavior. / Applied Science, Faculty of / Civil Engineering, Department of / Graduate
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Deformation of the two phase composite Al -CuAl2Baker, Victor Thomas January 1966 (has links)
The deformation behavior of the two phase composite Al-CuAl₂ has been studied at ordinary and elevated temperatures using sheath rolling and extrusion. Plasticity was exhibited by the CuAl₂ only at elevated temperatures and contributed little to overall deformation of the composite. Results have been interpreted in terms of simple models for combined stresses involving a hydrostatic component. Examination of microstructures of extruded composites indicated that it may be possible to study the flow of metals in deformation processes by the use of suitable composites. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate
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A mathematical theory of elastic orthotropic plates in plane strain and axi-symmetric deformationsLin , Yi Han January 1987 (has links)
We present an elastic orthotropic plate theory in plane strain and axisym-metric deformations by first developing their uniform asymptotic expansions of the exact solutions for the basic governing boundary value problems. Then, the establishment of the necessary conditions for decaying states, both explicitly and asymptotically, enables us to determine the outer solution without reference to the inner solution and clarify the precise
meaning of the well known St.Venant's principle under the circumstances considered here. The possible existence of corner stress singularities was examined by establishing and solving three transcendental governing equations. By developing a generalized Cauchy type singular integral equation for the plane strain deformation and an integral equation of the second kind for the axi-symmetric deformation and taking the corner stress singularities
into consideration, we obtained accurate numerical solutions for all canonical boundary value problems which are needed in the asymptotic necessary conditions for decaying
states. Finally, the accuracy of the numerical solutions of canonical boundary value problems and the efficiency of the plate theory were confirmed through the applications of solving two physical problems and comparing with the existing results. / Science, Faculty of / Mathematics, Department of / Graduate
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A method for metal deformation and stress analysis in rolling /Kennedy, Kevin Francis January 1986 (has links)
No description available.
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Plastic deformation and roughness of free metal surfaces /Valkonen, Aki Ensio January 1987 (has links)
No description available.
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An analysis of the thermorheological response of bituminous concrete. Project No. EES 199 /Pagen, Charles Anthony January 1963 (has links)
No description available.
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Stress and deformation analysis of a two-layered linear viscoelastic system /Kraft, David Christian January 1964 (has links)
No description available.
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The mechanical behavior of electrochemically polarized nickel single crystals /Latanision, R. M. January 1968 (has links)
No description available.
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A fundamental study of dynamic metal plasticity /Wei, Ting Yung January 1975 (has links)
No description available.
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