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Micromechanics as a basis of stochastic finite elements and differences: An overview
M. Ostoja-Starzewski
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Dive into the research topics of 'Micromechanics as a basis of stochastic finite elements and differences: An overview'. Together they form a unique fingerprint.
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Keyphrases
Micromechanics
100%
Random Field
100%
Representative Volume Element
100%
Stochastic Finite Element
100%
Stochastic Finite Differences
100%
Microstructure
50%
Finite Element Method
50%
Stiffness
50%
Scale-dependent
50%
Finite Element
50%
Meso
50%
Constitutive Law
50%
Matrix-inclusion Composite
50%
Finite Difference
50%
From below
50%
Finite Difference Method
50%
Boundary Value Problem
50%
Material Response
50%
Stochastic Solutions
50%
Crystallite Size
50%
Solution Method
50%
Polycrystal
50%
Finite Difference Scheme
50%
Continuum Formulation
50%
Slip Line
50%
Rigid-perfectly Plastic Material
50%
Engineering
Micromechanics
100%
Finite Element Analysis
100%
Random Field
66%
Representative Volume Element
66%
Realization
33%
Classical Method
33%
Boundary Value
33%
Material Response
33%
Solution Method
33%
Polycrystal
33%
Stochastic Solution
33%
Crystal Size
33%
Slip Line
33%
Perfectly Plastic Material
33%
Finite Difference Method
33%