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Yin Yao
Institute of Advanced Structure Technology
h-index
1320
Citations
23
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2013
2024
Research activity per year
Overview
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Research output
(76)
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(3)
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Dive into the research topics where Yin Yao 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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Material Science
Biological Material
15%
Carbon Fiber
17%
Debonding
33%
Elastic Constant
13%
Elastic Moduli
28%
Elasticity
17%
Energy Density
96%
Epoxy
11%
Film
18%
Finite Element Method
11%
Fracture Toughness
16%
Functional Surface
35%
Graphene
27%
High Entropy Alloys
23%
Hydrophobic Surface
7%
Large Deformation
9%
Lithium Ion Battery
15%
Matrix Composite
16%
Mechanical Property
21%
Mechanical Strength
76%
Metal
18%
Metal Matrix Composite
11%
Microparticle
11%
Nacre
12%
Nanocomposites
12%
Nanocrystalline Material
86%
Nanodevice
16%
Nanoindentation
9%
Nanoparticle
42%
Nanoporous Material
10%
Nanowire
23%
Particle Reinforced Composites
15%
Plastic Deformation
7%
Platelet
15%
Polymer Composite
15%
Polysiloxane
25%
Shear Strength
14%
Silica Nanoparticle
15%
Silicon Dioxide
7%
Strain Gradient Plasticity
17%
Stress Concentration Factor
15%
Stress Field
13%
Superhydrophobic
18%
Surface Energy
66%
Surface Roughness
17%
Surface Stress
9%
Thin Films
13%
Ultimate Tensile Strength
11%
Volume Fraction
21%
Wettability
10%
Engineering
Adhesive Contact
15%
Apparent Contact Angle
11%
Characteristic Length
9%
Closed Form Solution
11%
Computer Simulation
12%
Constitutive Model
10%
Constitutive Relation
9%
Contact Problem
15%
Debonding
11%
Demonstrates
11%
Directional
23%
Drag Reduction
11%
Elastic Field
10%
Elastic Half
15%
Energy Density
62%
Face-Centered Cubic
11%
Fiber-Reinforced Composite
9%
Fibre Stress
13%
Hard Phase
11%
Heat Losses
10%
Hydrophobic
20%
Impact Toughness
9%
Induced Surface
17%
Interfacial Debonding
11%
Interfacial Shear Strength
19%
Interfacial Shear Stress
17%
Large Deformation
11%
Lateral Surface
11%
Lithium-Ion Batteries
15%
Localization Zone
9%
Microstructure
35%
Nanomaterial
59%
Nanoparticle
37%
Nanoscale
36%
Nanowires
31%
Nonlocal Model
15%
One Dimensional
9%
Optimal Design
21%
Platelet
11%
Relaxation Parameter
13%
Resonant Frequency
11%
Rubber Composite
11%
Shear Lag Model
20%
Size Effect
27%
Soft Phase
14%
Strain Localization
23%
Surface Effect
100%
Tangent Modulus
10%
Tensiles
9%
Young's Modulus
9%
