P
Philip Eisenlohr
Researcher at Michigan State University
Publications - 114
Citations - 6697
Philip Eisenlohr is an academic researcher from Michigan State University. The author has contributed to research in topics: Dislocation & Grain boundary. The author has an hindex of 33, co-authored 114 publications receiving 5402 citations. Previous affiliations of Philip Eisenlohr include University of Erlangen-Nuremberg & Max Planck Society.
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Overview of constitutive laws, kinematics, homogenization and multiscale methods in crystal plasticity finite-element modeling: Theory, experiments, applications
TL;DR: In this paper, a review of continuum-based variational formulations for describing the elastic-plastic deformation of anisotropic heterogeneous crystalline matter is presented and compared with experiments.
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An elasto-viscoplastic formulation based on fast Fourier transforms for the prediction of micromechanical fields in polycrystalline materials
TL;DR: In this paper, the authors presented an infinitesimal-strain version of a formulation based on fast Fourier transforms (FFT) for the prediction of micromechanical fields in polycrystals deforming in the elasto-viscoplastic (EVP) regime.
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Revealing the strain-hardening behavior of twinning-induced plasticity steels: Theory, simulations, experiments
David Steinmetz,Tom Jäpel,Burkhard Wietbrock,Philip Eisenlohr,Ivan Gutierrez-Urrutia,Alireza Saeed-Akbari,Tilmann Hickel,Franz Roters,Dierk Raabe +8 more
TL;DR: In this paper, a multiscale dislocation density-based constitutive model for the strain-hardening behavior in twinning-induced plasticity (TWIP) steels is presented.
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A spectral method solution to crystal elasto-viscoplasticity at finite strains
TL;DR: In this article, the authors present an extension of the existing spectral formulation for polycrystals to the case of finite strains, not limited to a particular constitutive law, by considering a general material model implementation.
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The role of heterogeneous deformation on damage nucleation at grain boundaries in single phase metals
Thomas R. Bieler,Thomas R. Bieler,Philip Eisenlohr,Franz Roters,Deepak Kumar,D. E. Mason,Martin A. Crimp,Dierk Raabe +7 more
TL;DR: In this paper, a crystal plasticity-finite element (CP-FEM) based model of an extensively characterized microstructural region has been used to determine if the stress-strain history provides any additional insights about the relationship between shear and damage nucleation.