Journal of Applied Mechanics

2012

DOI: 10.1115/1.4005894

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Probing the Relation Between Dislocation Substructure and Indentation Characteristics Using Quantized Crystal Plasticity

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Myoung‐Gyu Lee

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Peter M. Anderson

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Abstract: Novel indentation studies combined with in situ transmission electron microscopy correlate large load drops with instabilities involving dislocation substructure. These instabilities are captured in finite element simulations of indentation that employ quantized crystal plasticity (QCP) in the vicinity of a nanoindenter tip. The indentation toaddisplacement traces, slip patterns, and creation of gaps are correlated with the scale, strength, and shear strain burst imparted by slip events within microstructural … Show more

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Cited by 7 publications

References 31 publications

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Quantized Crystal Plasticity Modeling of Nanocrystalline Metals

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2016

Multiscale Materials Modeling for Nanomechanics

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Quantized Crystal Plasticity Modeling of Nanocrystalline Metals

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2016

Multiscale Materials Modeling for Nanomechanics

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Accelerating coupled finite element-kinetic Monte Carlo models: 200 $$\times $$ × speedup of shear transformation zone dynamics simulations

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2018

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Shear Transformation Zone Dynamics models of metallic glass deformation access experimentally-relevant time scales by using the Kinetic Monte Carlo method to simulate small, fast, often discrete events, while the Finite Element Method calculates macroscopic shape change and continuum-level interactions within samples. The most time-consuming portion of these models is the Finite Element Method calculation on each step. However, in cases where the finite element mesh geometry and element elastic properties do not change from step to step, the finite element stiffness matrix (and its Cholesky factors) from previous steps can be reused. This strategy improves the asymptotic complexity of these models and in practice accelerates their execution by nearly 200x. This enables simulation of larger samples in more reasonable time. A set of three-dimensional Shear Transformation Zone Dynamics simulations, with larger length scales than any currently in the literature, illustrates the utility of this approach.

Quasi-static Tensile and Compressive Behavior of Nanocrystalline Tantalum Based on Miniature Specimen Testing—Part II: Mechanical Properties

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et al. 2016

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