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Theory of elasticity
TLDR
The theory of the slipline field is used in this article to solve the problem of stable and non-stressed problems in plane strains in a plane-strain scenario.Abstract:
Chapter 1: Stresses and Strains Chapter 2: Foundations of Plasticity Chapter 3: Elasto-Plastic Bending and Torsion Chapter 4: Plastic Analysis of Beams and Frames Chapter 5: Further Solutions of Elasto-Plastic Problems Chapter 6: Theory of the Slipline Field Chapter 7: Steady Problems in Plane Strain Chapter 8: Non-Steady Problems in Plane Strainread more
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Gas-driven water volcanism and the resurfacing of Europa
TL;DR: In this article, the authors analyzed how pathways are created for the resurfacing by water or volatiles for a Europa model in which there is an ocean underlying a thin ice shell (∼10-km thickness).
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Mechanical properties and fracture evolution of sandstone specimens containing different inclusions under uniaxial compression
TL;DR: In this paper, a series of uniaxial compression tests were conducted on prismatic sandstone containing a prefabricated hole filled with different types of inclusions using a servo-hydraulic machine.
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The effect of processing parameters on pharmaceutical tablet properties
TL;DR: In this article, a detailed analysis of the die fill process on high speed rotary tablet production presses is presented, where the powder is deposited into the die under the effect of the gravity.
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Free energy spectra for inelastic deformation of five metallic glass alloys
A.S. Argon,H.Y. Kuo +1 more
TL;DR: The activation free energy spectra for isoconfigurational flow of Al20Cu25Zr55,Cu40Zr60, Cu56Zr44, Cu60Zr40, and Pd80Si20 have been measured in experiments of recovery creep at stepwise increasing temperatures performed on structurally stabilized specimens that have been previously mechanically polarized by creep over a long period of time at Tg − 150 K, followed by freezing under stress to 220 K and removal of stress.
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Modeling of crazing using a cohesive surface methodology
TL;DR: In this article, a novel cohesive surface model for crazing in polymers is developed, which incorporates the initiation, growth and breakdown of crazes based on micromechanical considerations.