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查看斯高帕斯 (Scopus) 概要
陳 立業
教授
化學工程與材料工程學系
https://orcid.org/0000-0001-8271-3351
電子郵件
sli.chan
unsw.edu
tw
網站
http://www.en.cme.ncu.edu.tw/products_detail/166.htm
h-index
2842
引文
27
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。
1983 …
2025
每年研究成果
概覽
指紋
網路
研究計畫
(6)
研究成果
(107)
指紋
查看啟用 Lap Ip Chan 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
Material Science
Composite Material
63%
Hydrogen Storage Alloys
61%
Surface (Surface Science)
53%
Diffusivity
47%
Scanning Electron Microscopy
38%
Grain Size
36%
Film
35%
Carbon Nanotube
32%
X-Ray Diffraction
29%
Heat Treatment
29%
Grain Boundary
28%
Density
28%
Hydrogen Embrittlement
28%
Desorption
27%
Corrosion
26%
Aluminum
25%
Weld Metal
24%
Stainless Steel
23%
Duplex Stainless Steel
23%
Ultimate Tensile Strength
23%
Metal Hydride
22%
Thin Films
22%
Dehydrogenation
22%
Fatigue Crack Growth
21%
Carbon Steel
20%
Crystallite Size
20%
Electrochemical Property
20%
Powder Metallurgy
19%
High Entropy Alloys
18%
Creep Property
17%
Austenitic Stainless Steel
17%
Austenite
17%
Volume Fraction
17%
Hydrogenation
17%
Corrosion Resistance
17%
Nanoparticle
16%
Physical Property
16%
Matrix Composite
16%
Nanocrystalline
14%
Oxide Compound
14%
Aluminum Oxide
14%
Nickel Alloy
13%
Pitting Corrosion
13%
Aluminium Oxide Nanoparticle
13%
Metal Matrix Composite
13%
Crack Propagation
13%
Fatigue Crack
13%
Hydride
12%
Crystal Defect
12%
Embrittlement
11%
Keyphrases
Hydrogen Storage
47%
Nickel Hydroxide
44%
Hydrogen Storage Alloy
43%
Microstructure
39%
Nickel Electrode
32%
Discharge Capacity
30%
Occlusivity
30%
Hydrogen Diffusion
30%
Banded Structure
26%
Electrolyte
26%
Ferrite-pearlite
25%
Electrochemical Characteristics
23%
Hydrogen Storage Capacity
22%
Reinforced
21%
Hydrogen Content
20%
Zr-based
19%
Hydrogen Embrittlement
19%
X Ray Diffraction
19%
AISI 4130 Steel
19%
Powder Metallurgy
19%
Friction Surfacing
18%
Electrochemical Properties
18%
Dehydrogenation
18%
Hydrogen Permeation
18%
Multi-walled Carbon Nanotubes (MWCNTs)
17%
Creep Behavior
17%
Low Carbon Steel
17%
SiC Particles
17%
AA6061
17%
2205 Duplex Stainless Steel
17%
LaNi4.25Al0.75
17%
Scanning Electron Microscopy
17%
Ball Milling
17%
Active Materials
17%
Friction
17%
Carbon Content
16%
Room Temperature
16%
Mechanical Properties
16%
Grain Size
15%
Hydrogen Charging
15%
Electrochemical Performance
15%
Tensile Properties
14%
Martensitic Structure
14%
Metal Hydride
14%
Pearlite Colony
14%
Annealing
14%
Aluminum Oxide
14%
Equiaxed Grain
14%
Temperature Effect
14%
Alloy Electrode
13%
Engineering
Hydrogen Storage
100%
Discharge Capacity
42%
Pearlite
32%
Diffusivity
25%
Welds
23%
Iron
23%
Thin Films
22%
Ray Diffraction
20%
Hydrogenation
18%
Mild Steel
17%
Creep
17%
Storage Capacity
17%
Banded Structure
16%
Corrosion Rate
15%
Hydrogen Embrittlement
14%
Stainless Steel
14%
Hydrogen Permeability
14%
Retention Capacity
13%
Fatigue Crack Propagation
12%
Fatigue Crack Growth
12%
Carbon Nanotube
11%
Electrochemical Hydrogen Storage
11%
Phase Particle
11%
Active Material
11%
Carbon Steel
11%
Duplex Stainless Steel
11%
Rate Constant
11%
Cycle Life
11%
Fatigue Crack Propagation Rate
10%
Partial Substitution
10%
Power Supply
9%
Heat Treatment
9%
Hydrogen Damage
9%
Al Alloy
9%
Specific Surface Area
9%
Room Temperature
9%
Steel Bar
8%
High-Entropy Alloys
8%
Electric Power Systems
8%
Remote Area
8%
Stress Corrosion Cracking
8%
Austenitic Stainless Steel
8%
Tensiles
8%
Rate Capability
7%
Porosity
7%
Yield Point
7%
Ball Milling
7%
Longitudinal Direction
7%
Rolling Process
6%
Hydrogen-Induced Cracking
6%