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Liu Liu
School of Aerospace Engineering
h-index
509
Citations
14
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2004
2025
Research activity per year
Overview
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Research output
(48)
Similar Profiles
(6)
Fingerprint
Dive into the research topics where Liu Liu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Engineering
Digital Image Correlation
100%
Composite Material
96%
Anisotropic
90%
Stress-Intensity Factor
86%
Finite Element Modeling
70%
Beam Shear
60%
Fatigue Crack Growth
57%
Dynamic Response
54%
Thermal Protection
53%
Thermal Stress
51%
Experimental Investigation
51%
Thick Section
51%
Tensiles
48%
System Protection
46%
Non-Linear Dynamic
45%
Finite Element Method
40%
Mixed Mode
38%
Crack Growth Behavior
38%
Measurement Noise
38%
Elevated Temperature
38%
Thermal Environment
38%
Sandwich Structures
38%
Snap-Through
35%
Uniform Heat Flux
34%
Face Sheet
34%
Crack Growth
34%
Stress-Strain Relations
33%
Material Constant
30%
Two Dimensional
30%
Shear Strain
29%
Interlaminar Shear Strength
29%
Displacement Field
27%
Buckling
25%
Laminated Composite Plate
25%
Property Characterization
25%
Heat Flux
25%
Stress Intensity
23%
Crack Growth Rate
22%
Region of Interest
21%
Thickness Direction
21%
Strain Field
19%
In-Plane Shear
19%
Material Interface
19%
Young's Modulus
18%
Joints (Structural Components)
17%
Compressive Loading
17%
Optimisation Procedure
17%
Aluminum Oxide
17%
Covariance Matrix
17%
Harmonics
17%
Material Science
Fatigue Crack Growth
71%
Composite Material
62%
Elastic Moduli
55%
Crack Growth
53%
Glass Transition Temperature
42%
Elastic Property
38%
Titanium
38%
Shear Strength
38%
Crack Propagation
29%
Mechanical Property
26%
Materials Property
25%
Matrix Composite
25%
Snap-Through
25%
Composite Materials Property
25%
Fatigue Behavior
25%
Composite Material
25%
Finite Element Method
21%
Magnetic Ceramics
21%
Mechanical Strength
19%
Aluminum Oxide
19%
Finite Element Modeling
19%
Fatigue Crack
19%
Fatigue of Materials
19%
Damage Evolution
19%
Polymer Composite
16%
Stress Intensity
15%
Stress Intensity Factor
15%
Shear Testing
14%
Ultimate Tensile Strength
14%
Glass-Fiber Reinforced Plastic
12%
Nanocrystalline Material
12%
Anisotropy
12%
Single Crystal
12%
Polymer Films
12%
High-Cycle Fatigue
12%
Nickel Alloys
12%
Fiber-Reinforced Composite
12%
Structural Dynamics
12%
Strain Measurement
9%
Crack Tip
9%
Tensile Loads
8%
Pore Size
6%
Structural Composite Material
6%
Fracture Toughness
6%
Silicon Dioxide
6%
Stress-Strain Relations
6%
Damage Mechanics
6%
Thermal Load
6%
Bearing Capacity
6%
Yield Stress
6%
