Material Science
Aluminum Alloys
100%
Aluminum
90%
Bearing Capacity
90%
Magnesium
60%
High Strength Steels
45%
Magnesium Alloy
37%
Fracture Behavior
37%
Cyclic Loads
32%
Mechanical Strength
24%
Bonded Joint
20%
Tensile Loads
17%
Ultimate Tensile Strength
15%
Low-Cycle Fatigue
9%
Riveted Joint
9%
High-Cycle Fatigue
9%
Static Loading
9%
Crack Propagation
7%
Fatigue Crack
7%
Materials Design
7%
Steel Sheet
7%
Finite Element Method
7%
Crack Initiation
7%
Strain Rate
7%
Mechanical Joint
7%
Adhesive Bonding
7%
Engineering
Joints (Structural Components)
60%
High Strength Steel
39%
Cyclic Loading
30%
Lap Joint
30%
Bearing Capacity
30%
Fatigue Performance
20%
Static Strength
20%
Cross Section
17%
Riveting
17%
Sheet Magnesium
9%
Side Cut
9%
Bonding Process
9%
Crack Propagation
9%
Fracture Behavior
9%
Crack Initiation Fatigue
9%
Induced Deformation
9%
Tensiles
9%
Strength Performance
9%
Room Temperature
9%
Load Ratio
9%
Good Agreement
7%
Adhesive Layer
7%
Numerical Model
7%
Finite Element Method
7%
Force Displacement
7%
Strength Steel Sheet
7%
Strain Rate
7%
Liquid Adhesive
7%
Displacement Curve
7%
Flow Behavior
7%