Keyphrases
Strain Rate
82%
Wear-resistant Steel
56%
High Strain Rate
55%
Wear Behavior
53%
Abrasive
49%
Microstructure
49%
Wear Rate
43%
Wear Test
43%
Strain Rate Effect
42%
Digital Image Correlation
36%
Temperature Measurement
33%
High Stress
33%
Field Temperature
31%
Martensitic Steel
30%
Austenite
29%
High-stress Abrasion
29%
Split Hopkinson Pressure Bar
27%
Strain Hardening
27%
Martensite
26%
Tensile Test
26%
Low Strain
26%
Mechanical Behavior
26%
Slurry Erosion
25%
Wear Performance
25%
Mechanical Properties
25%
Brazilian Disc Test
25%
Wear Mechanism
24%
Impact Abrasion
24%
Dynamic Strain Aging
24%
Application-oriented
23%
Slurry Pot
22%
Adiabatic Heating
22%
Plastic Deformation
22%
Wear Conditions
20%
Right Ventricle
20%
Dynamic Tensile Test
20%
Wear Resistance
20%
Wear Surface
20%
Jaw Crusher
19%
Metastable Austenitic Stainless Steel
19%
Loader
19%
Wear Testing
19%
Carbides
18%
Annealing
18%
Heat Shock
18%
Kuru
18%
Austenitic Stainless Steel
18%
Hadfield Steel
18%
Strain Measurement
17%
Work Hardening
17%
Engineering
Strain Rate
100%
High Strain Rate
66%
Strain Hardening
38%
Resistant Steel
37%
Effect of Strain
35%
Rates of Strain
32%
Austenitic Stainless Steel
32%
Austenite
32%
Temperature Distribution
32%
Tensile Test
29%
Ultimate Tensile Strength
28%
Digital Image Correlation
28%
Mechanical Property
28%
Strain Field
27%
Split Hopkinson Pressure Bar
26%
Dynamic Strain Aging
23%
Martensitic Stainless Steel
23%
Surface Fatigue
22%
Service Performance
22%
Jaw Crusher
22%
Deformation Behavior
21%
Lower Strain Rate
20%
Tensile Loads
19%
Plastic Deformation
19%
Surface Crack
19%
Martensite
18%
Tensiles
18%
Test Method
18%
Stress Abrasion
18%
Hopkinson Bar
16%
Erosion Wear
16%
Cutting Edge
16%
Confining Pressure
16%
Abrasive Wear
16%
Strain Rate Sensitivity
15%
Impact Condition
15%
Dynamic Loads
15%
Test Result
15%
Wear Resistance
14%
Room Temperature
14%
Mass Loss
14%
Elastomer
13%
Abrasive Particle
13%
High Strength Steels
13%
Impact Energy
12%
Necking Region
12%
Test Procedure
12%
Dump Cars
12%
Steel Grade
12%
Mechanical Response
12%