Keyphrases
Material Behavior
100%
Plastic Materials
100%
Laser Parameters
100%
Laser Powder Bed Fusion (L-PBF)
100%
Cyclic Plastic
100%
Strain Amplitude
57%
Stress Level
28%
High Strain
28%
Induced Strain
28%
Melting Zone
28%
Maximum Stress
14%
Porosity
14%
(R)-1
14%
Parameter Influence
14%
Strain Softening
14%
Stress Curve
14%
Cyclic Loading
14%
Strain Hardening
14%
Fatigue Life
14%
Strain Ratio
14%
Metallographic Analysis
14%
Low Cycle Fatigue
14%
Mechanical Twinning
14%
Low Tensile Strength
14%
Strain-controlled Fatigue Test
14%
Static Mechanical Properties
14%
Manson-Coffin
14%
Cyclic Plasticity
14%
Strain-life Curve
14%
Fatigue Parameters
14%
AISI 316L
14%
Metal Laser Powder Bed Fusion
14%
Engineering
Material Behavior
100%
Powder Bed Fusion
100%
Laser Parameter
100%
Strain Amplitude
57%
Parameter Set
28%
Stress Level
28%
Melting Point
28%
Strain Hardening
28%
Significant Change
14%
Maximum Stress
14%
Increasing Strain
14%
Mechanical Fatigue Test
14%
Fatigue Life
14%
Hardening Behavior
14%
Metallographic Analysis
14%
Low Cycle Fatigue
14%
Controlled Fatigue
14%
Generated Stress
14%
Low Tensile Strength
14%
Life Curve
14%
Cyclic Loading
14%
Mechanical Twinning
14%
Porosity
14%
Material Science
Plastic Material
100%
Laser Powder Bed Fusion
100%
Work Hardening
66%
Ultimate Tensile Strength
33%
Fatigue of Materials
33%
Plasticity
33%
Low-Cycle Fatigue
33%