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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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Keyphrases
Actual Behaviour
12%
Anisotropy
12%
Anisotropy Effect
12%
Bulk Properties
12%
Combined Strategy
12%
Comparative Analysis
12%
Crack Initiation
12%
Critical Resolved Shear Stress
25%
Crystal Plasticity
12%
Crystal Plasticity Finite Element Analysis
100%
Crystal Plasticity Finite Element Method (CPFEM)
25%
Cu6Sn5
100%
Cu6Sn5 Intermetallic
100%
Experiment Modeling
12%
Grain number
12%
Grain Size
12%
Grain Size Effect
12%
Intermetallic Layer
12%
Intermetallic Materials
12%
Material Parameters
12%
Mechanical Testing
12%
Miniaturization
12%
Modeling Material
12%
Nanodevices
12%
Nanoindentation Model
12%
Nanoindentation Test
12%
Plastic Behavior
12%
Plastic Deformation
25%
Plastic Flow
12%
Primary Cracks
12%
Primary Intermetallics
12%
Saturation Stress
12%
Shear Modulus
12%
Shear Yield Strength
12%
Single Crystal
37%
Single Crystal Plasticity
100%
Slip Parameter
37%
Slip Process
12%
Slip System
75%
Solder Joint
37%
Strain Hardening Modulus
12%
Stress Stages
12%
Stress Value
12%
System Behavior
12%
System Parameters
12%
User Material
12%
Volume Ratio
12%
Yield Point
12%
Material Science
Anisotropy
50%
Crack Initiation
25%
Crystal Plasticity
100%
Elastic Moduli
25%
Finite Element Method
100%
Grain Size
50%
Intermetallics
100%
Mechanical Testing
25%
Nanoindentation
50%
Plastic Deformation
50%
Plastic Flow
25%
Plasticity
25%
Single Crystal
100%
Solder Joint
75%
Yield Stress
25%
Engineering
Actual Behavior
14%
Bulk Property
14%
Comparative Analysis
14%
Crack Initiation
14%
Critical Resolved Shear Stress
28%
Finite Element Analysis
100%
Grain Size Effect
14%
Hardening Modulus
14%
Intermetallics
100%
Joints (Structural Components)
100%
Material Parameter
14%
Modeling Experiment
14%
Modulus of Shear
14%
Nanoelectronics
14%
Nanoindentation Test
14%
Plastic Deformation
28%
Plastic Flow
14%
Primary Crack
14%
Shear Yield Strength
14%
Single Crystal Plasticity
100%
Slip Process
14%
Slip System
85%
System Behavior
14%
System Parameter
14%
Volume Ratio
14%
Yield Point
14%