Skip to main navigation
Skip to search
Skip to main content
Northwestern Scholars Home
Help & FAQ
Home
Experts
Organizations
Research Output
Grants
Core Facilities
Research Data
Search by expertise, name or affiliation
Rate-sensitive damage theory for brittle solids
Wimal Suaris,
Surendra P. Shah
Civil and Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
58
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Rate-sensitive damage theory for brittle solids'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Rate Sensitivity
100%
Brittle Solids
100%
Stress-strain Curve
100%
Damage Theory
100%
Nonlinearity
66%
Uniaxial Tension
66%
High Strain Rate
33%
Quasi-static
33%
Strain Rate
33%
Quasi-dynamic
33%
Dynamic Behavior
33%
Strain Rate Effect
33%
Microcracks
33%
Uniaxial Compression
33%
Brittle Materials
33%
Thermodynamic Constraints
33%
Constitutive Equation
33%
Pre-existing Damage
33%
Free Energy Functional
33%
Strain Rate Sensitivity
33%
Damage Variable
33%
Continuous Damage
33%
Damage Evolution Equation
33%
Microcracking Process
33%
Vectorial Representation
33%
Engineering
Stress-Strain Curve
100%
Nonlinearity
66%
High Strain Rate
33%
Experimental Result
33%
Dynamic Behavior
33%
Constitutive Equation
33%
Strain Rate Sensitivity
33%
Damage Variable
33%
Strain Rate
33%
Microcracking
33%
Damage Evolution
33%
Strain Rate Effect
33%
Rate Sensitivity
33%
Illustrates
33%
Brittleness
33%
Gibbs Free Energy
33%