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Li Lei
Professor
School of Mechanics,Civil Engineering and Architecture
h-index
1931
Citations
24
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
(200)
Similar Profiles
(8)
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Dive into the research topics where Lei Li is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Weight
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Engineering
Aerodynamics
21%
Airfoil
10%
Al Alloy
21%
Based Design Optimization
16%
Blade Cooling
17%
Blade Turbine
55%
Centrifugal Compressor
16%
Compressor Blade
17%
Computational Cost
14%
Convective
13%
Cooling Hole
35%
Cooling Performance
17%
Crack Propagation
14%
Creep
18%
Creep Behavior
17%
Design Optimization
14%
Disc Turbine
39%
Epoxy Silicone
30%
Experimental Result
11%
Failure Probability
33%
Fatigue Behavior
13%
Fatigue Life
14%
Fatigue Performance
14%
Finite Element Analysis
19%
Flaps
10%
Fretting Fatigue
16%
Gas Turbine
18%
High-Pressure Turbine
19%
In-Plane Loading
10%
Kriging Model
40%
Leading Edge
11%
Maximum Stress
15%
Multidisciplinary Design Optimization
66%
Network Model
11%
Optimal Design
12%
Optimisation Problem
18%
Optimization Method
33%
Probability Function
16%
Reliability Analysis
25%
Reliability Based Design
11%
Rotors
11%
Single Crystal Superalloys
28%
Stress Concentration
18%
Supercharger
10%
Surrogate Model
13%
System Reliability
10%
Tensile Property
16%
Thermal Cycle
11%
Trailing Edge
12%
Turbine
29%
Material Science
Aircraft
11%
Aluminum Alloy
7%
Analytical Method
10%
Capacitance
8%
Carbide
13%
Carbon Steel
10%
Composite Laminate
16%
Composite Material
11%
Composite Material
11%
Corrosion
13%
Crack Initiation
16%
Crack Propagation
22%
Creep
17%
Creep Property
9%
Crystal Orientation
8%
Crystal Plasticity
11%
Density
10%
Dielectric Spectroscopy
14%
Diffusivity
7%
Electrochemical Corrosion
10%
Fatigue Behavior
19%
Fatigue Crack
10%
Fatigue Damage
12%
Fatigue of Materials
42%
Film
33%
Finite Element Method
19%
Finite Element Modeling
8%
Fracture Behavior
6%
Fretting Fatigue
43%
Grain Size
7%
Heat Treatment
12%
Impact Testing
6%
Laser Directed Energy Deposition
17%
Microstructural Analysis
7%
Ni-based Single Crystal Superalloy
24%
Nickel-Based Superalloys
53%
Plastic Deformation
9%
Polysiloxane
35%
Residual Stress
28%
Scanning Electron Microscopy
8%
Shot Peening
17%
Silane
12%
Single Crystal
100%
Stress Concentration
8%
Superalloys
83%
Surface (Surface Science)
44%
Surface Morphology
6%
Tensile Loads
6%
Tensile Property
24%
Ultimate Tensile Strength
13%
