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.
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Journal ArticleDOI
Novel Defense Mechanisms in the Armor of the Scales of the “Living Fossil” Coelacanth Fish
Haocheng Quan,Wen Yang,Wen Yang,Eric Schaible,Robert O. Ritchie,Robert O. Ritchie,Marc A. Meyers +6 more
TL;DR: In this paper, Quan et al. used in situ synchrotron small-angle X-ray scattering during uniaxial tensile testing to identify the deformation mechanisms of the collagen in coelacanth scales in terms of fibril stretching, reorientation, sliding, bending and delamination.
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Organic interlamellar layers, mesolayers and mineral nanobridges: Contribution to strength in abalone (Haliotis rufescence) nacre
TL;DR: The contributions of mesolayers, organic interlamellar layers and nanoasperities/mineral bridges to the strength of nacre from red abalone shell nacre are investigated and results obtained validate the importance of the organic constituent as the mechanical properties decline greatly when the organic component is removed.
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Solid-state experiments at high pressure and strain rate
Daniel H. Kalantar,Bruce Remington,J. D. Colvin,Karnig O. Mikaelian,S. V. Weber,L. G. Wiley,Justin Wark,A. Loveridge,A. M. Allen,Allan Hauer,Marc A. Meyers +10 more
TL;DR: In this article, a pre-imposed modulation at the embedded Rayleigh-Taylor unstable interface was observed to grow and the growth rates were fluid-like at early time, but suppressed at later time.
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Controlled high‐rate localized shear in porous reactive media
TL;DR: In this paper, the authors demonstrated that controlled high-strain-rate plastic deformation of heterogeneous reactive porous materials (Nb+Si, Mo+Si+MoSi2) produces shear localization.
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Transmission Electron Microscopy Study of Strain-Induced Low- and High-Angle Boundary Development in Equal-Channel Angular-Pressed Commercially Pure Aluminum
TL;DR: In this article, the evolution of the microstructure in a commercially pure aluminum during equal channel angular pressing (ECAP) using route BC was investigated by transmission electron microscopy.