Engineering
Temperature
23%
Bending Energy
22%
Fiber Orientation
18%
Split Hopkinson Pressure Bar
18%
Mechanical Failure
18%
Failure Criterion
18%
Tensile Testing
18%
Testing Method
18%
High Strain Rate
18%
Low Impedance
18%
Ultrasonics
18%
Transmissions
18%
Development
18%
Hopkinson
18%
Compression Bar
18%
Ultimate Tensile Strength
15%
Environment
14%
Automotive Sector
13%
Tensile Test
13%
Renewables
13%
Structural Element
13%
Correlation
12%
Strain Rate
12%
Tensiles
10%
Product
9%
Sustainable Development
9%
Significant Influence
9%
Acetylation
9%
Sustainable Material
9%
Automotives
9%
Durables
9%
Biodiesel
9%
Mechanical Engineer
9%
Modulus of Shear
9%
Compression Test
9%
Poisson Ratio
9%
Hopkinson Bar
9%
Wear Part
9%
Elevated Temperature
8%
Static Loading
7%
Energy Absorption
7%
Research
6%
Laboratory
6%
Elements
6%
Composite
6%
Pearsons Linear Correlation Coefficient
6%
Performance
6%
Fiber-Reinforced Composite
6%
Influencing Factor
6%
Accurate Prediction
6%
Material Science
Wood
100%
Materials
42%
Mechanical Strength
37%
Temperature
29%
Composite Material
28%
Chemical Resistance
18%
Solid Modeling
18%
Ultimate Tensile Strength
18%
Characterization
18%
Bending
18%
Fiber Reinforced Material
13%
Stiffness
12%
Water
12%
Paper
12%
Elastic Moduli
11%
Air
7%
Gasoline
6%
Mechanical Property
6%
Carbon Dioxide
6%
Biodiesel
6%
Wood Product
5%