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Tan Hua
Professor
School of Materials Sience and Engineering
h-index
4427
Citations
37
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2006
2025
Research activity per year
Overview
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Research output
(141)
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(6)
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Dive into the research topics where Hua Tan is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Material Science
Titanium Alloy
100%
Directed Energy Deposition
94%
Three Dimensional Printing
87%
Ti-6Al-4V
79%
Tensile Property
53%
Laser Powder Bed Fusion
49%
Laser Directed Energy Deposition
48%
Heat Treatment
47%
Solidification
45%
Composite Material
44%
Titanium
43%
Superalloys
41%
Ultimate Tensile Strength
37%
Microhardness
35%
Inconel 718
31%
Matrix Composite
30%
Grain Boundary
29%
Nucleation
27%
Yield Stress
25%
Surface (Surface Science)
21%
Alloying
21%
Liquid Interface
19%
Low-Cycle Fatigue
17%
Anisotropy
17%
Multilayer
16%
Laser Deposition
15%
Crystal Microstructure
15%
Microstructure Characterization
15%
Microstructural Evolution
15%
Selective Laser Melting
14%
Martensite
14%
Volume Fraction
13%
Invar
13%
Metal Deposition
13%
Feedstock
12%
Energy Density
12%
Laser Processing
11%
Single Crystal
11%
Density
11%
Laser-Assisted Deposition
11%
Elastic Moduli
10%
Thermal Cycling
9%
Fracture Behavior
9%
Fracture Toughness
9%
Scanning Electron Microscopy
9%
Coarsening
9%
Vickers Hardness
9%
Grain Size
9%
Fatigue Crack Growth
8%
Strain Rate
8%
Engineering
Tensile Property
46%
Columnar Grain
46%
Ti-6al-4v
44%
Additive Manufacturing
38%
Heat Treatment
32%
Ti-6al-4v Alloy
31%
Laser Additive Manufacturing
29%
Ultimate Tensile Strength
27%
Processing Parameter
27%
Blended Elemental Powder
25%
Powder Bed Fusion
23%
Laser Power
23%
Tensiles
22%
Microstructure Evolution
21%
Anisotropic
20%
Microhardness
20%
Deposition Process
19%
Powder Flow
18%
Yield Point
18%
Deposited Energy
17%
Process Parameter
17%
Thermal History
13%
Power Laser
13%
Low Cycle Fatigue
13%
Fatigue Property
13%
Heterogeneous Nucleation
13%
Melt Pool
13%
Temperature Gradient
13%
Thermal Gradient
13%
Room Temperature
13%
Deformation Behavior
12%
Mechanical Performance
12%
Tensile Test
12%
Laser Micro
11%
Alloying
11%
Build Direction
11%
Strengthening Effect
11%
Induction Heating
11%
Powder Particle
11%
Microstructural Evolution
11%
Scanning Strategy
10%
Additive Manufacturing Process
10%
Eutectics
9%
Test Result
9%
Martensite
9%
Mo Content
8%
Ternary System
8%
Abutment
8%
Additive Manufacture
8%
Thin Walled Structures
8%
