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Bin Li
Assistant Professor
Mechanical Engineering (Robotics)
226
Citations
Source: Scopus
6
h-Index
Calculated based on no. of publications stored in Pure and citations from Scopus
2010
2021
Research activity per year
Overview
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Research output
(12)
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Dive into the research topics where Bin 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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Mathematics
Phase Field Model
100%
Crack Propagation
97%
Brittle Fracture
96%
Phase Field
85%
Surface Energy
50%
B-spline
50%
Crack
49%
Variational Model
43%
Adaptive Refinement
43%
Dynamic Fracture
42%
Brittle Materials
39%
Remeshing
38%
Elastomers
36%
Isogeometric Analysis
34%
Energy Conservation
32%
Modeling and Simulation
31%
Higher Order
26%
Anisotropic Material
25%
Zigzag
24%
Discretization
24%
Basis Functions
24%
Damage
23%
Crack Tip
21%
Spline
18%
Chain
18%
Triangle Mesh
18%
Triangle
17%
Adaptive Mesh Refinement
17%
Refinement
16%
Modeling
16%
Adaptivity
15%
Anisotropy
14%
Insertion
13%
Energy
12%
Mixed Mode
12%
NURBS
11%
Standards
11%
Interpolate
11%
Energy Balance
11%
Dirichlet Boundary Conditions
11%
Fourth Order
10%
Finite Element
9%
Saw tooth
9%
Nucleation
9%
Numerical Stability
9%
Single Crystal
9%
Order Continuity
9%
Partial differential equation
9%
Phenomenology
9%
Internal
8%
Engineering & Materials Science
Brittle fracture
99%
Interfacial energy
82%
Splines
73%
Cracks
68%
Crack propagation
65%
Elastomers
54%
Microspheres
33%
Brittleness
27%
Energy conservation
19%
Anisotropy
19%
Fracture mechanics
18%
Crack tips
16%
Chain length
15%
Polydispersity
12%
Partial differential equations
12%
Constitutive models
11%
Crystal growth
11%
Geometry
10%
Convergence of numerical methods
10%
Entropy
9%
Stretching
9%
Single crystals
9%
Boundary conditions
9%
Galerkin methods
9%
Energy balance
8%
Polymerization
8%
Elasticity
7%
Nucleation
7%
Physics
7%
Interpolation
7%
Experiments
6%
Polymers
6%
Computational methods
5%
Physics & Astronomy
elastomers
53%
cracks
39%
transplantation
38%
kinking
36%
tearing
32%
chirality
26%
cleavage
25%
surface energy
23%
mesh
23%
stiffness
21%
carbon nanotubes
21%
curvature
20%
graphene
20%
oscillators
18%
damage
18%
engineering
18%
tubes
17%
elastic sheets
16%
mice
13%
internal energy
12%
fracture mechanics
11%
stem cells
8%
simulation
7%
blood vessels
7%
regeneration
7%
self assembly
6%
engineers
6%
rats
6%
centrifugal force
6%
elastic properties
6%
Van der Waals forces
6%
curved surfaces
5%
continuums
5%
homogenizing
5%
vessels
5%
polymerization
5%
phenomenology
5%
