Engineering
Compressive Residual Stress
94%
Corrosion Fatigue
66%
Applications
66%
Plasticity Model
55%
Fatigue Assessment
55%
Mild Steel
54%
Fatigue Life
53%
Hardening
40%
Kinematic Hardening Model
33%
Dirac Delta Function
33%
Fatigue Analysis
33%
Fatigue Life Prediction
33%
Stages
33%
High Cycle Fatigue
33%
Steel
33%
Temperature Creep
33%
Test Specimen
31%
Mechanical Fatigue Test
31%
Elements
24%
Crack Propagation
22%
Crack Initiation
22%
Material Model
21%
Induced Residual Stress
20%
Numerical Modeling
19%
Experimental Investigation
19%
High Pressure
19%
Stress-Strain Curve
17%
Test Result
17%
Tensiles
13%
Stress-Life Approach
13%
Local Stress
11%
Numerical Prediction
11%
Low Carbon
11%
Models
11%
Beneficial Effect
11%
Structural Steel
11%
Method in Fracture Mechanics
11%
Tensile Test
11%
Fatigue Lifetime
11%
Prediction
11%
Plastic Analysis
11%
Accurate Simulation
11%
Material Constant
11%
Hardening Parameter
11%
Accurate Calculation
11%
Experimental Stress
11%
Internal Variable
8%
Subroutine
8%
Computer Simulation
8%
Benchmark Problem
8%
Material Response
8%
Accuracy
8%
Cyclic Stress
6%
Residual Stress Distribution
6%
Stress Relaxation
6%
Material Behavior
6%
Good Agreement
6%
Cycles
6%
Design Assessment
6%
Residual Stress
6%
Significant Influence
6%
Cyclic Loading
6%
Hardening Effect
6%
Experimental Result
6%
Memorization
5%
Material Science
Hardening
100%
Residual Stress
83%
Plasticity
76%
Material
66%
Plastics
43%
Low Carbon Steel
41%
Spring Steel
40%
Stress Field
33%
Strain
33%
Temperature
33%
Fatigue of Materials
22%
Cylinder
16%
Hydraulics
12%
Finite Element Methods
11%
Stress Relaxation
5%
Physics
Model
79%
Plastic Properties
43%
Steel
34%
Temperature
33%
Utilization
33%
Creep
33%
Kinematics
33%
Strain
33%
Assessments
33%
Simulation
14%
Crack Arrest
12%
Responses
8%
High Pressure
8%
Shapes
5%
Yield Surface
5%