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
Kinetics of strain-induced martensitic nucleation
G. B. Olson
*
, Morris Cohen
*
Corresponding author for this work
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
803
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Kinetics of strain-induced martensitic nucleation'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
304 Stainless Steel
25%
Approach to Saturation
25%
Austenite
25%
Chemical Driving Force
25%
Compositional Control
25%
Entropy Difference
25%
Induced nucleation
25%
Martensite
25%
Martensite Volume Fraction
25%
Martensitic
100%
Mechanical Twins
25%
Metastable Austenite
25%
Plastic Strain
25%
Problems in the Development
25%
Saturation Rate
25%
Saturation Value
25%
Shear Band
100%
Shear Band Formation
25%
Stacking Fault Energy
25%
Stacking Faults
25%
Strain-induced
100%
Temperature Effect
50%
Temperature Parameter
25%
Transformation Curve
50%
Transformation Kinetics
25%
TRIP Steel
25%
Two-temperature
25%
Engineering
304 Stainless Steel
25%
Austenite
50%
Chemical Driving Force
25%
Good Agreement
25%
Martensite
50%
Plastic Strain
25%
Saturation Value
25%
Shear Band
100%
Shear Band Formation
25%
Stacking Fault Energy
25%
Temperature Dependence
50%
Material Science
304 Stainless Steel
20%
Austenite
40%
Crystal Defect
40%
Martensite
40%
Nucleation
100%
Shear Band
100%
TRIP Steel
20%
Volume Fraction
20%