Results 221 to 230 of about 4,200,078 (285)
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Nonideal Thermal Contact Problem
Differential Equations, 2023zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Galanin, M. P., Rodin, A. S.
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JAMA: The Journal of the American Medical Association, 1949
The American Committee on Optics and Visual Physiology 1 has been interested in the contact lens problem for some time and authorized the investigation which is the basis for this report. This committee is composed of ophthalmologists from the Section on Ophthalmology of the American Medical Association, the American Ophthalmological Society, the ...
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The American Committee on Optics and Visual Physiology 1 has been interested in the contact lens problem for some time and authorized the investigation which is the basis for this report. This committee is composed of ophthalmologists from the Section on Ophthalmology of the American Medical Association, the American Ophthalmological Society, the ...
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2016
In this chapter, we adapt the methods presented above to the solution of contact problems which take inertia forces into account. The introduction of time is a source of many complications, even in the case that we restrict our attention to the 3D problems of linear elasticity without friction. A little is known about a solution of continuous problems,
Zdeněk Dostál, Tomáš Kozubek
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In this chapter, we adapt the methods presented above to the solution of contact problems which take inertia forces into account. The introduction of time is a source of many complications, even in the case that we restrict our attention to the 3D problems of linear elasticity without friction. A little is known about a solution of continuous problems,
Zdeněk Dostál, Tomáš Kozubek
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Approximation of Contact Problems. Shape Optimization in Contact Problems
1988The main part of this contribution deals with the approximation of variational inequalities, with special emphasize to contact problems. Finite element technique is used, starting from different variational formulations (primal, mixed). More details, concerning the approximation and numerical realization of contact problems can be found in [9].
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On the Problem of Nonstationary Contact Problems
Vestnik St. Petersburg University, MathematicszbMATH Open Web Interface contents unavailable due to conflicting licenses.
V. A. Babeshko +3 more
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2016
Now we shall extend the results introduced in the previous chapter to the solution of multibody contact problems of elasticity without friction. We shall restrict our attention to the problems of linear elasticity, i.e., we shall assume small deformations and linear stress–strain relations.
Zdeněk Dostál +2 more
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Now we shall extend the results introduced in the previous chapter to the solution of multibody contact problems of elasticity without friction. We shall restrict our attention to the problems of linear elasticity, i.e., we shall assume small deformations and linear stress–strain relations.
Zdeněk Dostál +2 more
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1992
In the previous chapter, we considered problems in which the infinite wedge was loaded on its faces or solely by tractions on the infinite boundary. A related problem of considerable practical importance concerns the wedge with traction-free faces, loaded by a concentrated force F at the vertex, as shown in Figure 12.1.
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In the previous chapter, we considered problems in which the infinite wedge was loaded on its faces or solely by tractions on the infinite boundary. A related problem of considerable practical importance concerns the wedge with traction-free faces, loaded by a concentrated force F at the vertex, as shown in Figure 12.1.
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Navigating financial toxicity in patients with cancer: A multidisciplinary management approach
Ca-A Cancer Journal for Clinicians, 2022Grace Li Smith +2 more
exaly
1998
One of the principal results of wear is that there are irreversible changes in the shape of the surfaces. These changes are comparable to elastic deformations and thus should be taken into account in the estimation of the contact characteristics of the bodies in sliding contact (distribution of stresses, dimensions of contact area etc.).
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One of the principal results of wear is that there are irreversible changes in the shape of the surfaces. These changes are comparable to elastic deformations and thus should be taken into account in the estimation of the contact characteristics of the bodies in sliding contact (distribution of stresses, dimensions of contact area etc.).
openaire +1 more source