M
Marc A. Meyers
Researcher at University of California, San Diego
Publications - 502
Citations - 42882
Marc A. Meyers is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Deformation (engineering) & Dislocation. The author has an hindex of 85, co-authored 487 publications receiving 36646 citations. Previous affiliations of Marc A. Meyers include University of California & Instituto Militar de Engenharia.
Papers
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Identification of stress-induced nucleation sites for martensite in Fe-31.8 wt% Ni-0.02 wt% C alloy
TL;DR: In this article, a plate impact recovery technique has been used to study the incubation time, inception, and the initiation and growth of martensitic transformations in an Fe-31% Ni-0.02% C alloy, at a temperature of M s + 10°C.
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Hydration-induced reversible deformation of the pine cone
TL;DR: In this paper, the authors analyzed the role of porosity gradient in the scaling of pine cones and found that it can significantly decrease the internal stresses produced by the gradient structure, which is an ingenious design to increase the interfacial toughness to improve the robustness of pine cone scales.
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Shear localization and chemical reaction in Ti–Si and Nb–Si powder mixtures: Thermochemical analysis
TL;DR: In this article, the authors show that shear bands can serve as ignition regions for the propagation of the reaction throughout the entire specimen for Ti-Si, whereas in the Nb-Si system (that has a much lower enthalpy of reaction), the reaction is always localized in the shear band.
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Amorphization by mechanical deformation
B.Y. Li,Ang Li,Marc A. Meyers +2 more
TL;DR: A review of amorphization induced by mechanical deformation which can be imparted by a variety of means, prominent among which are tribological processes, severe plastic deformation, nanoindentation, shock compression, diamond anvil cell and ball milling/mechanical alloying can be found in this paper .
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ALE-AMR: A New 3D Multi-Physics Code for Modeling Laser/Target Effects
Alice Koniges,N. Masters,Aaron Fisher,R W Anderson,D. C. Eder,T B Kaiser,D S Bailey,Brian T. N. Gunney,P Wang,B Brown,K Fisher,F Hansen,Brian Maddox,David J. Benson,Marc A. Meyers,A Geille +15 more
TL;DR: The ALE-AMR as discussed by the authors code combines Arbitrary Lagrangian Eulerian hydrodynamics with Adaptive Mesh Refinement (AMR) to connect the continuum to microstructural regimes.