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Single Crystal Plasticity Finite Element Analysis of Cu
6
Sn
5
Intermetallic
Soud Farhan Choudhury,
Leila Ladani
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
Overview
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Dive into the research topics of 'Single Crystal Plasticity Finite Element Analysis of Cu
6
Sn
5
Intermetallic'. Together they form a unique fingerprint.
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Engineering & Materials Science
Single crystals
93%
Intermetallics
85%
Plasticity
75%
Crystals
60%
Soldering alloys
59%
Finite element method
50%
Nanoindentation
48%
Anisotropy
42%
Shear stress
37%
Plastic deformation
35%
Nanoelectronics
28%
Plastic flow
21%
Crack initiation
19%
Hardening
18%
Yield stress
18%
Chemical activation
18%
Elastic moduli
17%
Plastics
14%
Testing
10%
Experiments
7%
Chemical Compounds
Solder
100%
Plastic Deformation
67%
Shear Stress
64%
Yield Point
62%
Single Crystalline Solid
57%
Anisotropy
50%
Grain Size
50%
Crack Initiation
41%
Shear Modulus
35%
Size Effect
30%
Shear
24%
Flow
17%
Volume
15%
Physics & Astronomy
plastic properties
75%
intermetallics
72%
slip
68%
single crystals
50%
solders
27%
critical loading
18%
nanoindentation
16%
shear stress
14%
plastic deformation
14%
grain size
12%
crystals
11%
shear
11%
anisotropy
10%
crack initiation
9%
plastic flow
9%
miniaturization
9%
yield point
8%
yield strength
8%
hardening
7%
finite element method
6%
activation
6%
plastics
6%
saturation
5%
curves
4%