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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
Citations
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Coefficient of restitution of colliding viscoelastic spheres.
TL;DR: A Padé approximation is constructed for this function which may be used for a wide range of impact velocities where the concept of the viscoelastic collision is valid.
Journal ArticleDOI
Assumed strain stabilization of the eight node hexahedral element
Ted Belytschko,Lee P. Bindeman +1 more
TL;DR: In this paper, an accurate and robust stabilization based on the assumed strain method and an operator orthogonal to constant strain fields is presented for an eight-node hexahedral element with uniform reduced integration.
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Tuned, driven, and active soft matter
TL;DR: In this article, a review of soft-matter systems that are quasi-statically tuned or switched to a new state by applying external external fields is presented, including those that are driven out of their ground state and out of equilibrium.
Patent
Controlled buckling structures in semiconductor interconnects and nanomembranes for stretchable electronics
John A. Rogers,Matthew Meitl,Yugang Sun,Heung Cho Ko,Andrew Carlson,Won Mook Choi,Mark P. Stoykovich,Hanqing Jiang,Yonggang Huang,Ralph G. Nuzzo,Zhengtao Zhu,Etienne Menard,Dahl-Young Khang +12 more
TL;DR: In this article, the authors proposed a printable stretchable semiconductors and electronic circuits for flexible electronic and optoelectronic devices, which can be adapted to a wide range of device configurations to provide fully flexible electronic devices.
Journal ArticleDOI
Modeling the flow of dense suspensions of deformable particles in three dimensions.
TL;DR: The model is highly scalable and efficient compared to other models of blood cells in flow, making it an ideal and unique tool for studying blood flow in microvessels or vesicle or capsule flow (or a mixture of different particles).