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查看斯高帕斯 (Scopus) 概要
洪 榮州
教授
機械工程學系
https://orcid.org/0000-0003-4130-2876
電子郵件
hungjc
ncu.edu
tw
網站
https://www.me.ncu.edu.tw/Faculty/faculty-more.php?id=97
h-index
1115
引文
17
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
2000
2025
每年研究成果
概覽
指紋
網路
研究計畫
(4)
研究成果
(55)
類似的個人檔案
(2)
指紋
查看啟用 Jung-Chou Hung 的研究主題。這些主題標籤來自此人的作品。共同形成了獨特的指紋。
排序方式
重量
按字母排序
Keyphrases
Surface Roughness
79%
Electrical Discharge Machining
65%
Electrochemical Machining
58%
Micro-hole
55%
Machining Characteristics
44%
Electrode Insulation
43%
Ultrasonic Vibration
37%
Electrolyte
37%
Microtool
36%
Insulation Layer
35%
Abrasive Jet Machining
35%
Electrochemical Micromachining
33%
Electrochemical Microdrilling
32%
Machining Process
28%
Tool Electrode
27%
Machining Parameters
27%
Micro-hole Machining
26%
Machining Accuracy
25%
Micro-electrical Discharge Machining (Micro-EDM)
24%
Electropolishing
24%
Hot-dip Aluminizing
24%
Micro-arc Oxidation
24%
Material Removal Rate
23%
Machining Performance
23%
Electrochemical Discharge Machining
22%
Hybrid Process
22%
Surface Quality
21%
SKD61
18%
Oxidation Method
17%
Electrode Wear Rate
16%
Abrasive Jet Polishing
16%
Electrophoretic Deposition
16%
Wafer
16%
Regeneration
16%
Scrap
16%
Composite Abrasive
16%
Spherical Tool
16%
Electrical Discharge Coating
16%
Machined Surface
15%
Taguchi Method
15%
SiC Particles
15%
Insulating Layer
15%
Machining Efficiency
14%
Machining Time
14%
Surface Morphology
14%
Insulation
13%
Peak Current
13%
Microgroove
13%
Micro-slot
13%
Current Density
13%
Engineering
Microhole
76%
Electrical Discharge
70%
Electric Discharge Machining
58%
Abrasive Jet
56%
Experimental Result
49%
Ultrasonics
48%
Insulation Layer
42%
Electrodischarge Machining
35%
Machining Parameter
29%
Surface Quality
27%
Micro Machining
27%
Material Removal Rate
27%
Machining Performance
26%
Grinding (Machining)
24%
Machining Accuracy
23%
Hybrid Process
21%
Insulating Layer
21%
Electrolytic Polishing
20%
Electrode Wear
18%
Microscale
17%
Diamond
16%
Abrasive
16%
Machining Time
16%
Hydrodynamics
16%
Silicon Dioxide
16%
Process Parameter
16%
Surface Morphology
15%
Stainless Steel
14%
Taguchi Method
14%
Electronic Counter Countermeasures
13%
Aluminum Oxide
13%
Hole Diameter
13%
Experimental Investigation
12%
Material Removal
12%
Silicon Wafer
12%
Side Wall
11%
Processing Time
10%
Melting Point
10%
Simulation Result
10%
Passivation
10%
Machined Surface
9%
Dielectric Fluid
9%
Processing Parameter
9%
Pulse Duration
9%
Size of Particle
8%
Surface Integrity
8%
Magnetic Force
8%
Computer Aided Engineering
8%
Exposed Part
8%
Thrust Bearing
8%
Material Science
Machining
100%
Surface Roughness
63%
Surface (Surface Science)
48%
Electrochemical Machining
36%
Electrical Discharge Machining
32%
Titanium
26%
Titanium Alloy
23%
Surface Property
19%
Cathode
19%
Abrasive Jet Machining
18%
Aluminum
18%
Dielectric Material
15%
Stainless Steel
14%
Surface Morphology
12%
Diamond
12%
Polishing
11%
Tungsten
10%
Anodic Dissolution
10%
Three Dimensional Printing
10%
Corrosion Resistance
9%
Film
9%
Composite Material
9%
Aluminum Coating
8%
Electrodeposition
8%
Surface Modification
8%
Electrophoretic Deposition
8%
Micromachining
8%
Process Simulation
8%
Tool Steel
8%
Silicon
8%
Hydrodynamic Bearing
8%
Surface Passivation
8%
Amorphous Metal
8%
Aluminum Oxide
7%
Abrasive
6%
