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Fracture of bicrystal metal/ceramic interfaces: A study via the mechanism-based strain gradient crystal plasticity theory
A. Siddiq
*
, S. Schmauder,
Y. Huang
*
Corresponding author for this work
Civil and Environmental Engineering
Research output
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Contribution to journal
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Article
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peer-review
41
Scopus citations
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Dive into the research topics of 'Fracture of bicrystal metal/ceramic interfaces: A study via the mechanism-based strain gradient crystal plasticity theory'. Together they form a unique fingerprint.
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Engineering
Plasticity Theory
100%
Mechanisms
19%
Strain Gradient
14%
Strain Gradient Effect
14%
Cohesive Strength
9%
Work of Adhesion
9%
Fracture
9%
Comparative Study
4%
Macroscopic
4%
Mechanical Model
4%
Plastic Zone
4%
Design
4%
Crack
4%
Stationary Crack
4%
Aluminum Oxide
4%
Ceramic Interface
4%
INIS
crystals
33%
plasticity
33%
strains
19%
cracks
19%
adhesion
9%
fractures
9%
bicrystals
9%
design
4%
metals
4%
interfaces
4%
size
4%
modeling
4%
length
4%
plastics
4%
ceramics
4%
zones
4%
finite element method
4%
aluminium oxides
4%
niobium
4%
Physics
Crystal Plasticity
66%
Ratios
9%
Fracture
9%
Continuum
4%
Niobium
4%
Cracks
4%
Material Science
Finite Element Methods
9%
Material
4%
Crack
4%