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On modelling of cutting force and temperature in bone milling
Zhirong Liao, Dragos Axinte, Dong Gao
Department of Mechanical, Materials and Manufacturing Engineering
Research output
:
Journal Publication
›
Article
›
peer-review
78
Citations (Scopus)
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Dive into the research topics of 'On modelling of cutting force and temperature in bone milling'. Together they form a unique fingerprint.
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Keyphrases
Cutting Temperature
100%
Cutting Force Modeling
100%
Bone Milling
100%
Bone Tissue
75%
Bone Cutting
75%
Cutting Process
50%
Cutting Force
50%
Osteon
50%
Necrosis
50%
Orthogonal Cutting
25%
Cutting Parameters
25%
Temperature Distribution
25%
Thermal Effect
25%
Cutting Conditions
25%
Anisotropic Characteristics
25%
Processing Difficulty
25%
Edge Effect
25%
Cutting Force Coefficients
25%
Lamellae
25%
Tool Geometry
25%
Stress Model
25%
Orientation Tool
25%
Bone Biomaterials
25%
Characteristic-based
25%
Temperature-based Method
25%
Thermal Damage
25%
Tool Edge
25%
Unified Mechanics
25%
Cell Injury
25%
Cutting Stress
25%
Geometry Effect
25%
Cutting Model
25%
Metal Cutting
25%
Mechanistic Model
25%
Mechanical Damage
25%
Cutting Surface
25%
Johnson-Cook Model
25%
Cutting Data
25%
Mechanistic Modeling
25%
Robotic Surgery
25%
Orthopedics
25%
Penetration Depth
25%
Tool Design
25%
Orthopedic Surgery
25%
Heat Flux
25%
Engineering
Cutting Temperature
100%
Cutting Force
100%
Experimental Result
25%
Cutting Parameter
25%
Anisotropic
25%
Design Tool
25%
Temperature Distribution
25%
Thermal Effect
25%
Cutting Condition
25%
Mechanistic Modeling
25%
Force Coefficient
25%
Mechanistic Model
25%
Heat Flux
25%
Mechanical Damage
25%
Penetration Depth
25%
Cook Model
25%
Metal Cutting
25%
Stress Model
25%
Edge Effect
25%
Cut Surface
25%