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查看斯高帕斯 (Scopus) 概要
鍾 禎元
副教授
機械工程學系
電子郵件
cxc474
case
edu
網站
https://www.me.ncu.edu.tw/Faculty/faculty-more.php?id=88
h-index
244
引文
8
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。
2012
2024
每年研究成果
概覽
指紋
網路
研究計畫
(10)
研究成果
(27)
類似的個人檔案
(2)
指紋
查看啟用 Chen-Yuan Chung 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
Air Void Distribution
25%
Articular Cartilage
37%
Biological Materials
25%
Bioreactor
29%
Bone Fracture
33%
Carbon Fiber
31%
Cartilage
73%
Cartilage Tissue Engineering
46%
Composite Materials
29%
Conductive Polymer Composites
66%
Conformal Cooling Channel
37%
Electric Properties
50%
End Effect
25%
Engineered Materials
25%
Epoxy Resin
25%
External Magnetic Field
41%
Fiber Orientation
87%
Filling Process
52%
Finite Element Analysis
45%
Hip Prosthesis
25%
Injection Molding
88%
Injection Molding Process Parameters
43%
Injection Speed
39%
Magnetic Fibers
64%
Magnetic Field Effect
37%
Magnetic-assisted Injection Molding
60%
Material Properties
60%
Mechanical Behavior
37%
Mechanical Properties
66%
Melting Temperature
39%
Metal Injection Molding
39%
Mold Temperature
40%
Multilayered Hydrogel
25%
Nano-reinforced Composites
25%
Poroelastic Properties
50%
Randomly Oriented
25%
Recrystallization Behavior
25%
Reinforcing Properties
25%
Rigid Plate
25%
Screw
41%
Screw Position
25%
Stiffness
29%
Stress Relaxation
40%
Stress-assisted Diffusion
25%
Tensile Strength
33%
Ultrasonic Technology
25%
Ultrasound
29%
Ultrasound Elastography
25%
Vibration Analysis
27%
Weld Line
28%
Engineering
Air Void
25%
Bearing Implant
25%
Binding Phase
25%
Biomimetics
25%
Bioreactor
29%
Carbon Fibre Composite
25%
Composite Material
50%
Conductive Polymer
41%
Conformal Cooling Channel
37%
Constitutive Model
25%
Crank Mechanism
25%
Electrical Conductivity
25%
End Effect
25%
Engineered Cartilage
58%
External Magnetic Field
33%
Fiber Composite Material
25%
Fiber Orientation
50%
Filling Process
33%
Finite Element Analysis
59%
Finite Element Modeling
33%
High Molecular Weight Polyethylene
25%
Hip Prosthesis
25%
Hydrogel
41%
Implant
25%
Injection Moulding
100%
Injection Moulding Process
45%
Injection Speed
31%
Load Intensity
25%
Long Fiber
25%
Magnetic Field
25%
Measured Data
25%
Melting Temperature
33%
Metal Injection Moulding
39%
Mould Temperature
34%
Nanotube
25%
Parametric Design
25%
Polycarbonate
25%
Process Parameter
66%
Regional Strain
25%
Regression Equation
25%
Saint-Venant Principle
25%
Shielding Effect
25%
Stainless Steel
25%
Strengthening Mechanism
25%
Stress Relaxation
58%
Surgical Planning
25%
Ultimate Tensile Strength
33%
Ultrasonics
25%
Vibration Analysis
25%
Welds
28%
