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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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Finite volume method for thermo-elasto-plastic stress analysis
I. Demirdžić,D. Martinović +1 more
TL;DR: In this paper, a new numerical method for prediction of stresses and displacements in thermo-elasto-plastic material is presented, based on the direct solution of the governing equations for thermal energy and momentum balance.
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Gravity fields of the terrestrial planets: Long‐wavelength anomalies and tectonics
Roger J. Phillips,Kurt Lambeck +1 more
TL;DR: In this article, the authors discuss the gravity and topography data available for four terrestrial planets (earth, moon, Mars, and Venus), with particular emphasis on drawing inferences regarding the relationship of long-wavelength anomalies to tectonics.
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Fractional diffusion equation and relaxation in complex viscoelastic materials
TL;DR: In this paper, a fractional equation describing relaxation phenomena in complex viscoelastic materials is derived by employing a formal analogy between linear viscoelsasticity and difusion in a disordered structure.
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Analytical modelling of residual stresses in machining
TL;DR: In this paper, an analytical model is developed for prediction of residual stresses in machining, where both the thermal field of the workpiece and mechanical cutting forces are coupled based on the first law of thermodynamics.
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Dynamics of individual single-walled carbon nanotubes in water by real-time visualization.
Rajat Duggal,Matteo Pasquali +1 more
TL;DR: It is determined that commonly available SWNTs in liquids can be considered as rigid Brownian rods in the absence of imposed external fields or self-attractive forces, in agreement with theoretical estimates.