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查看斯高帕斯 (Scopus) 概要
陳 重德
副教授
機械工程學系
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886 6 2757575 ext 62273
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cdchen
mail.ncku.edu
tw
h-index
392
引文
11
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。
2002
2023
每年研究成果
概覽
指紋
網路
專案
(2)
研究成果
(36)
類似的個人檔案
(6)
監製作品
(8)
如果您對這些純文本內容做了任何改變,很快就會看到。
指紋
查看啟用 Chung-De Chen 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
Engineering & Materials Science
Harvesters
100%
Lead zirconate titanate
44%
Natural frequencies
37%
Shear deformation
35%
Wheels
29%
Finite element method
29%
Energy release rate
28%
Boundary conditions
28%
Magnets
27%
Surface waves
27%
Strain energy
26%
Structural health monitoring
25%
Stress analysis
24%
Mirrors
24%
Anisotropy
23%
Mindlin plates
23%
MEMS
22%
Electrodes
21%
Composite materials
21%
Crack propagation
21%
Fatigue of materials
20%
Cracks
19%
Actuators
19%
Scanning
18%
Stress intensity factors
18%
Piezoelectric transducers
18%
Plates (structural components)
17%
Aircraft
17%
Honeycomb structures
17%
Vibration analysis
17%
Piezoelectricity
16%
Bolted joints
15%
Elastic waves
15%
Electric potential
14%
Metamaterials
14%
Eigenvalues and eigenfunctions
13%
Frequency response
13%
Mechanical engineering
13%
Arches
13%
Compliance
13%
Laminates
13%
Kinematics
12%
Wave propagation
12%
Fatigue damage
12%
Pendulums
12%
Aluminum
12%
Stars
12%
Energy harvesting
12%
Fracture mechanics
12%
Crystals
12%
Mathematics
Sandwich Beam
83%
Piezoelectric
79%
Zigzag
63%
Wedge
39%
Energy Release Rate
36%
Apex
36%
Stress Singularity
34%
Stress Analysis
32%
Near-field
31%
Strain Energy
31%
Plate Theory
24%
Angle
23%
Strip
23%
Singularity
20%
Composite Beams
20%
Internal
20%
Shear Deformation
19%
Stress Field
19%
Taiwan
18%
Crack Growth
17%
Mellin Transform
17%
Fracture Mechanics
16%
Regret
15%
Energy Density
15%
Aircraft
15%
Deformation Theory
14%
Growth Model
13%
Stress Intensity Factor
12%
Schedule
12%
Wiener-Hopf Technique
12%
Formulation
11%
Elasticity
11%
Composite
10%
Stroh Formalism
10%
Engineering
9%
Gradient
9%
Higher Order
8%
Compliance
8%
First-order
7%
Epoxy
7%
Graphite
7%
Shear Stress
7%
Physics & Astronomy
wedges
36%
strain energy release rate
35%
apexes
24%
microelectromechanical systems
23%
strip
21%
near fields
20%
actuators
20%
projection
19%
shear
18%
mirrors
17%
honeycomb structures
16%
electrodes
16%
design analysis
16%
scanning
15%
fracture mechanics
14%
schedules
14%
eccentrics
13%
wheels
13%
scanners
13%
aircraft
13%
maintenance
12%
cracks
12%
energy
11%
elastic waves
11%
modules
11%
formulations
11%
flux density
10%
electric potential
10%
vibration
10%
lasers
10%
wave propagation
10%
elastic properties
9%
finite element method
9%
stress intensity factors
9%
magnets
9%
pumps
8%
piezoelectric actuators
8%
rings
8%
stars
8%
lead zirconate titanates
8%
gradients
7%
composite materials
7%
air
7%
ceramic bonding
7%
continuity
7%
stress distribution
6%
magnetic fields
6%
masks
6%
crystals
5%