[HTML][HTML] Historical review of computer simulation of radiation effects in materials
K Nordlund - Journal of Nuclear Materials, 2019 - Elsevier
In this Article, I review the development of computer simulation techniques for studying
radiation effects in materials from 1946 until 2018. These developments were often closely …
radiation effects in materials from 1946 until 2018. These developments were often closely …
Strength and plasticity of nanolaminated materials
The mechanical behavior of nanolaminates is dominated by interfaces that act as sources,
barriers, and preferred sites for storage and dynamic recovery of glide dislocations. In this …
barriers, and preferred sites for storage and dynamic recovery of glide dislocations. In this …
Key computational modeling issues in integrated computational materials engineering
Designing materials for targeted performance requirements as required in Integrated
Computational Materials Engineering (ICME) demands a combined strategy of bottom–up …
Computational Materials Engineering (ICME) demands a combined strategy of bottom–up …
Establishing structure-property localization linkages for elastic deformation of three-dimensional high contrast composites using deep learning approaches
Data-driven methods are attracting growing attention in the field of materials science. In
particular, it is now becoming clear that machine learning approaches offer a unique avenue …
particular, it is now becoming clear that machine learning approaches offer a unique avenue …
Multilevel crystal plasticity models of single-and polycrystals. Direct models
PV Trusov, AI Shveykin - Physical mesomechanics, 2013 - Springer
The paper continues the review of works on the development and application of multiscale
physical models to analyzing the behavior of single-and polycrystals under severe plastic …
physical models to analyzing the behavior of single-and polycrystals under severe plastic …
A perspective on trends in multiscale plasticity
DL McDowell - International Journal of Plasticity, 2010 - Elsevier
Research trends in metal plasticity over the past 25years are briefly reviewed. The myriad of
length scales at which phenomena involving microstructure rearrangement during plastic …
length scales at which phenomena involving microstructure rearrangement during plastic …
Temperature effect on tensile behavior of an interstitial high entropy alloy: Crystal plasticity modeling
Previous tensile tests showed that the typical coarse-grained (CG) interstitial high entropy
alloy (iHEA) with the nominal composition Fe 49.5 Mn 30 Co 10 Cr 10 C 0.5 (at.%) has …
alloy (iHEA) with the nominal composition Fe 49.5 Mn 30 Co 10 Cr 10 C 0.5 (at.%) has …
Correlation of spherical nanoindentation stress-strain curves to simple compression stress-strain curves for elastic-plastic isotropic materials using finite element …
DK Patel, SR Kalidindi - Acta Materialia, 2016 - Elsevier
The stress-strain fields realized in spherical indentation tests are highly heterogeneous, and
present a significant challenge to the recovery of bulk stress-strain responses such as those …
present a significant challenge to the recovery of bulk stress-strain responses such as those …
Hierarchical multiscale crystal plasticity framework for plasticity and strain hardening of multi-principal element alloys
The multi-principal element alloys (MPEAs) exhibit the unprecedented combinations of the
excellent mechanical properties, especially high strength and good ductility. However, the …
excellent mechanical properties, especially high strength and good ductility. However, the …
A multiscale strength model for extreme loading conditions
We present a multiscale strength model in which strength depends on pressure, strain rate,
temperature, and evolving dislocation density. Model construction employs an information …
temperature, and evolving dislocation density. Model construction employs an information …