Engineering
Models
100%
Tensiles
49%
Computer Simulation
44%
Finite Element Method
44%
Crystallographic Orientation
39%
Mechanical Response
35%
Mechanical Properties
32%
Development
30%
Temperature
29%
Residual Stress
22%
Harmonics
21%
Codes
21%
Energy Engineering
21%
Defects
20%
Machined Surface
19%
Indentation
19%
Young's Modulus
18%
Experiments
18%
Gears
17%
Continuum Mechanics
17%
Tensile Loads
17%
Prediction
16%
Material Parameter
16%
Material Behavior
16%
Density
16%
Cutting Force
15%
Subsurface
15%
Chip Thickness
15%
Atomic Force Microscopy
14%
Abaqus
14%
Friction Stir Welding
13%
Length Scale
13%
Constant Volume
13%
Material Model
13%
Calibration
12%
Characteristics
12%
Beam Length
11%
Scaling
11%
Displacement-Controlled Loading
11%
Simulation Model
11%
Elements
11%
Turning
11%
Ray Diffraction
11%
Beam Cross Section
11%
Contact Pressure
11%
Process Parameter
11%
Performance
11%
Error
11%
Microstructure
10%
Crystal Orientation
10%
Material Science
Single Crystal
52%
Nanoindentation
47%
Copper
45%
Temperature
34%
Characterization
31%
Plasticity
27%
Strain Rate
25%
Surface
24%
Indentation
22%
Finite Element Method
21%
Materials Structure
20%
Finite Element Modeling
18%
Hardness
18%
Machining
18%
Dislocation
17%
Film
17%
Optical Property
16%
Density
15%
Plastics
15%
Cutting Process
15%
Metal
14%
Friction
14%
Velocity
14%
Surface Roughness
14%
Mechanical Property
14%
Welding
13%
Friction Stir Welding
13%
Indentation Hardness Testing
13%
Young's Modulus
12%
Mechanical Strength
12%
Diffuse Reflectance Spectroscopy
11%
Inconel 718
11%
X-Ray Diffraction
11%
Friction Material
11%
Electronic Property
11%
Continuum Mechanics
11%
Oxide Compound
11%
Plastic Deformation
11%
Anisotropy
11%
Inverse Analysis
10%
Nickel
10%
Cutting Tool
9%
Coating
9%
Grain Size
9%
Yield Stress
9%
Microstructure
9%
Crystal Microstructure
8%
Diamond
8%
Rubber Material
7%
Laser
7%