Engineering & Materials Science
Bone
100%
Tissue
50%
Microstructure
26%
Anisotropy
22%
Magnetorheological fluids
22%
Finite element method
21%
Polymethyl methacrylates
21%
Fused Deposition Modeling
21%
Stents
21%
Crack propagation
21%
Axles
17%
Indentation
17%
Cutting tools
17%
Elastic moduli
16%
3D printers
16%
Printing
15%
Acids
14%
Compressive strength
14%
Numerical analysis
14%
Plastics
13%
Intelligent materials
13%
Microstructural evolution
13%
Coatings
12%
Mechanical properties
11%
Temperature
11%
Viscoplasticity
11%
Chemical analysis
10%
Porosity
9%
Orthopedics
9%
Computer simulation
8%
Flow rate
8%
Defects
7%
Magnetic fields
7%
Crystal microstructure
6%
Dynamic recrystallization
6%
Scaffolds
6%
Pore size
6%
Elasticity
6%
Alloy steel
6%
Structural integrity
5%
Sheet metal
5%
Analysis of variance (ANOVA)
5%
Thermal effects
5%
Constitutive models
5%
Crack initiation
5%
Hardness
5%
Chemistry
Simulation
26%
Cantilever Beam
26%
Crack Initiation
25%
Cushion
24%
Anisotropy
22%
Crack Propagation
22%
Residual Stress
21%
Viscoplasticity
21%
Accident
20%
Creep
19%
Tension
18%
Compression Strength
17%
Microstructure
16%
Energy
11%
Strain Hardening
11%
Additive
10%
Strength
10%
Loss Modulus
10%
Plastic Deformation
10%
Coating Agent
9%
Yield Point
9%
Dissipation
8%
Storage Modulus
8%
Drug
8%
Flow Kinetics
8%
Shape
7%
Porosity
6%
Crystal System
6%
Glass Transition
5%
Cylinder
5%
Dimension
5%
Application
5%
Physics & Astronomy
bones
31%
impact tests
21%
arteries
18%
crack propagation
17%
numerical analysis
14%
micromechanics
13%
microstructure
12%
engineering
12%
coatings
10%
computational mechanics
8%
hygiene
8%
Phoenix (AZ)
8%
recoilings
8%
artificial intelligence
7%
simulation
7%
magnetorheological fluids
7%
touch
6%
topology
5%
cells
5%
struts
5%
composite materials
5%
expansion
5%