Skip to main navigation
Skip to search
Skip to main content
Beijing Institute of Technology Home
English
中文
Home
Profiles
Research units
Research output
Prizes
Search by expertise, name or affiliation
View Scopus Profile
Lu Wang
School of Material Science and Engineering
h-index
4129
Citations
33
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
1998 …
2025
Research activity per year
Overview
Fingerprint
Network
Research output
(216)
Similar Profiles
(28)
Fingerprint
Dive into the research topics where Lu Wang is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Material Science
Al2O3
29%
Amorphous Alloys
40%
Amorphous Material
71%
Amorphous Metal
77%
Bulk Metallic Glass
49%
Carbon Fiber
35%
Ceramic Coating
10%
Composite Coating
11%
Compressive Strength
11%
Corrosion
16%
Corrosion Resistance
23%
Density
20%
Fracture Behavior
15%
Fracture Toughness
12%
Grain Size
11%
Heat Treatment
10%
High Entropy Alloys
100%
Liquid Phase Sintering
12%
Matrix Composite
33%
Mechanical Property
22%
Mechanical Strength
51%
Nanocrystalline
9%
Nanocrystalline Material
12%
Oxidation Reaction
34%
Oxidation Resistance
15%
Phase Structure
17%
Plasma Spraying
24%
Plastic Deformation
16%
Polyester
11%
Powder
36%
Residual Stress
8%
Scanning Electron Microscopy
28%
Shear Band
23%
Sol-Gel
10%
Solid Solution
15%
Spark Plasma Sintering
19%
Strain Rate
53%
Synchrotron X-Ray Diffraction
9%
Tensile Property
12%
Thermal Barrier Coatings
16%
Thermal Conductivity
28%
Thermal Expansion
8%
Thermal Stability
20%
Three Dimensional Printing
11%
Tungsten
64%
Ultimate Tensile Strength
17%
Volume Fraction
19%
Work Hardening
10%
X-Ray Diffraction
28%
Yield Stress
24%
Engineering
Adiabatic Shear
8%
Amorphous Matrix
15%
Barrier Coating
10%
Bulk Metallic Glass
21%
Cast Composite
8%
Composite Coating
5%
Compression Characteristic
5%
Compressive Deformation
7%
Compressive Loading
6%
Compressive Strength
17%
Computer Simulation
24%
Critical Section
5%
Deformation Behavior
9%
Dynamic Deformation
5%
Epoxy Resin System
5%
Failure Mode
9%
Flow Rate
5%
Flow Stress
7%
Fracture Behavior
17%
Fracture Morphology
12%
Fracture Strain
15%
Fracture Strength
5%
Fracture Surface
17%
High Strain Rate
9%
High-Entropy Alloys
40%
Hydrostatic Extrusion
8%
Liquid Phase Sintering
6%
Microhardness
5%
Microstructure
26%
Nozzle Exit
7%
Oxidation Resistance
6%
Phase Structure
6%
Plasma Spraying
11%
Plastic Deformation
6%
Rate Range
5%
Rates of Strain
10%
Ray Diffraction
20%
Room Temperature
19%
Shear Band
9%
Spark Plasma Sintering
5%
Split Hopkinson Pressure Bar
12%
Strain
18%
Strain Hardening
5%
Strain Rate
31%
Strain Rate Sensitivity
13%
Tensile Property
7%
Thermal Barrier
10%
Ultimate Tensile Strength
7%
