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FE simulation of laser ultrasonic surface waves in a biomaterial model
A. L'Etang,
Z. Huang
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Citations (Scopus)
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Dive into the research topics of 'FE simulation of laser ultrasonic surface waves in a biomaterial model'. Together they form a unique fingerprint.
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Keyphrases
Ultrasonic Surface Wave
100%
Laser Ultrasonic
100%
FE Simulation
100%
Heat Flux
100%
Biomaterials
100%
Finite Element Model
50%
Finite Element Analysis
50%
Surface Waves
50%
High Power
50%
Laser Beams
50%
Out-of-plane Displacement
50%
Short Pulse Laser
50%
Laser Materials
50%
Thermal Analysis
50%
Varying Thickness
50%
Energy Flux
50%
Point Source
50%
Thermoelastic Response
50%
Thermal Problem
50%
Elastodynamics
50%
Coupled Field Analysis
50%
Elastic Effect
50%
2-layer
50%
Finite Element Code
50%
Human Skin
50%
Laser Pulse Energy
50%
Material Interfaces
50%
Laser Pulse Duration
50%
Ultrasonic Wave
50%
Modeling Techniques
50%
Skin Model
50%
ANSYS
50%
Transient Thermal Analysis
50%
Laser Pulse Heating
50%
Engineering
Ultrasonics
100%
Finite Element Analysis
100%
Fem Model
100%
Heat Flux
100%
Finite Element Modeling
50%
Gaussians
50%
Human Skin
50%
Source Point
50%
Laser Pulse Duration
50%
Short Pulse Laser
50%
Thermal Problem
50%
Energy Flux
50%
Laser Pulse Energy
50%
Material Interface
50%
Skin Model
50%
Spatial Variation
50%
Do Effect
50%
Boundary Condition
50%
Laser Beams
50%