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Modelling of surface morphology and roughness in fluid jet polishing
Zili Zhang (Corresponding Author)
,
Chi Fai Cheung
(Corresponding Author)
,
Chunjin Wang
, Jiang Guo
Department of Industrial and Systems Engineering
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
30
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Dive into the research topics of 'Modelling of surface morphology and roughness in fluid jet polishing'. Together they form a unique fingerprint.
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Keyphrases
Surface Roughness
100%
Surface Morphology
100%
Fluid Jet Polishing
100%
Surface Quality
42%
Kinetic Analysis
28%
Polishing Condition
28%
Surface Morphology Evolution
28%
Single Abrasive
28%
Abrasive Erosion
28%
Physical Model
14%
High Cost
14%
Forming Accuracy
14%
Optical Components
14%
Velocity Distribution
14%
Trial-and-error
14%
Effective Method
14%
Abrasive
14%
Material Removal
14%
Indentation
14%
Erosion Mechanism
14%
Computational Fluid Dynamics Simulation
14%
Distribution Morphology
14%
Surface Generation
14%
Impact Velocity
14%
Function Surface
14%
Quality Requirements
14%
Micromaterials
14%
Dynamic Kinetics
14%
Material Removal Process
14%
Precision Molding
14%
Tool Influence Function
14%
Polishing Parameters
14%
Ploughing
14%
Jet Pressure
14%
Abrasive Size
14%
Jet Angle
14%
Dynamic Simulation Analysis
14%
Erosion Morphology
14%
Erosion pit
14%
Specific Surface
14%
Engineering
Surface Morphology
100%
Surface Quality
75%
Microscale
50%
Kinetics Analysis
50%
Computational Fluid Dynamics
25%
Experimental Result
25%
Deep Understanding
25%
Form Accuracy
25%
Macroscale
25%
Material Removal
25%
Erosion Process
25%
Simulation Result
25%
Material Removal Process
25%
Cutting Action
25%
Indentation
25%
Abrasive Size
25%
Abrasive
25%
Physical Model
25%
Impact Velocity
25%
Material Science
Surface Roughness
100%
Surface Morphology
100%
Polishing
100%
Surface Property
75%
Optical Device
25%
Indentation
25%
Computational Fluid Dynamics
25%
Surface (Surface Science)
25%
Abrasive
25%