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Energy absorption by the particle and the surface during impact
Avi Uzi,
Avi Levy
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
50
Scopus citations
Overview
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Dive into the research topics of 'Energy absorption by the particle and the surface during impact'. Together they form a unique fingerprint.
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Keyphrases
Energy Absorption
100%
Coefficient of Restitution
100%
Hardness Ratio
66%
Indentation Hardness
66%
Energy Loss
66%
Mechanical Properties
33%
Energy Dissipation
33%
Material Properties
33%
Surface Erosion
33%
Young's Modulus
33%
Kinetic Energy
33%
Particle Impact
33%
Impact Velocity
33%
Particle Breakage
33%
Particle-fluid
33%
Collision Characteristics
33%
Impact Angle
33%
Surface Particle
33%
Specific Mechanisms
33%
Energy Dissipation Mechanism
33%
Wall Impact
33%
Impact Model
33%
Cutting Deformation
33%
Tangential Coefficient of Restitution
33%
Prediction Accuracy
33%
Particle Deformation
33%
Property Condition
33%
Particle Material
33%
Collision Conditions
33%
Wall Material
33%
Normal Restitution Coefficient
33%
Model Performance
33%
Wall Deformation
33%
Poisson's Ratio
33%
Engineering
Energy Dissipation
100%
Energy Absorption
100%
Indentation Hardness
50%
Good Agreement
25%
Surface Erosion
25%
Applicability
25%
Young's Modulus
25%
Breakage
25%
Impact Velocity
25%
Impact Angle
25%
Target Material
25%
Accurate Prediction
25%
Poisson Ratio
25%
Fluid Particle
25%
Dissipate Energy
25%
Material Science
Indentation
100%
Density
50%
Young's Modulus
50%
Particle Breakage
50%
Poisson Ratio
50%
Materials Property
50%