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A thermal-ablation bioheat model including liquid-to-vapor phase change, pressure- and necrosis-dependent perfusion, and moisture-dependent properties
J. P. Abraham, E. M. Sparrow
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
148
Scopus citations
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Dive into the research topics of 'A thermal-ablation bioheat model including liquid-to-vapor phase change, pressure- and necrosis-dependent perfusion, and moisture-dependent properties'. Together they form a unique fingerprint.
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Physics & Astronomy
necrosis
100%
moisture
78%
ablation
68%
vapor phases
58%
liquids
38%
therapy
27%
thermophysical properties
16%
blood
14%
enthalpy
12%
occurrences
11%
retarding
11%
heat
9%
temperature
4%
Engineering & Materials Science
Ablation
89%
Vapors
65%
Moisture
63%
Tissue
49%
Liquids
48%
Hot Temperature
35%
Enthalpy
14%
Thermodynamic properties
13%
Blood
13%
Temperature
5%
Chemical Compounds
Ablation
84%
Thermodynamic Property
32%
Enthalpy
28%
Heat
26%
Pressure
21%
Liquid
19%
Surface
11%
Application
11%