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Dr Bo Li
Associate Professor in Structural Engineering
Department of Civil Engineering
Natural Resources and Environment Research Group
Email
Bo.Li
nottingham.edu
cn
h-index
2164
Citations
25
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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Network
Projects
(5)
Research output
(78)
Similar Profiles
(2)
Supervised Work
(3)
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Dive into the research topics where Bo Li is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Engineering
Activated Slag
49%
Anchors
19%
Autogenous Shrinkage
32%
Axial Load
36%
Beam-Column
100%
Carbon Fibre Reinforced Polymer
27%
Carbon Nanotube
18%
Cement Composite
36%
Cement Paste
51%
Cement-Based Material
20%
Chemical Shrinkage
18%
Coarse Aggregate
22%
Column Joint
98%
Compressive Strength
60%
Computer Simulation
28%
Damage Evolution
18%
Energy Dissipation
20%
Engineered Geopolymer Composites
27%
Environmental Performance
18%
Experimental Investigation
55%
Flexural Strengthening
18%
Foamed Concrete
18%
Granulated Blast Furnace Slag
18%
Graphene Oxide
36%
Heating Process
18%
Hydration Process
18%
Joints (Structural Components)
58%
Lightweight Aggregate
19%
Microstructure
25%
Mixing Design
20%
Pre-Wetting
18%
Properties of Concrete
18%
Pulse Velocity
22%
Quarries
18%
Quarry Waste
18%
Recycled Aggregate
43%
Recycled Concrete Aggregate
22%
Reinforced Concrete
72%
Reinforced Concrete Beam
87%
Reinforcement Corrosion
21%
Resistant Design
18%
Seismic Behavior
46%
Seismic Performance
41%
Shear Key
18%
Shear Walls
92%
Steel Plate
92%
Structural Member
19%
Supplementary Cementitious Material
22%
Test Result
35%
Ultrasonics
24%
Keyphrases
Autogenous Shrinkage
23%
Beam-column Joint
53%
Cement Composites
48%
Cement Paste
43%
China
30%
Compressive Strength
49%
Computational Fluid Dynamics
18%
Concrete Properties
27%
Construction Waste
24%
Corrosion
22%
Demolition Waste
24%
Exterior Beam-column Joint
20%
Ferrocement
40%
Ferrocement Jacket
28%
Foamed Mortar
18%
Graphene Oxide
36%
Ground Granulated Blast Furnace Slag (GGBFS)
23%
High Axial Load
21%
High Temperature
20%
Hydration Process
18%
Infill
18%
Interior Beam-column Joint
46%
Lightweight Aggregate
20%
Lightweight Foamed Concrete
18%
Loading Capacity
19%
Material Properties
22%
Mechanical Properties
52%
Near-surface Mounted
18%
Non-seismic Design
35%
Quarry Dust
18%
Quarry Waste
18%
Recycled Aggregate
56%
Recycled Coarse Aggregate
22%
Reinforced Concrete
67%
Reinforced Concrete Beam
66%
Reinforced Concrete Beam-column Joints
21%
Reinforcement Corrosion
33%
Reinforcement Detailing
18%
Seismic Behavior
46%
Seismic Performance
37%
Seismic Resistant Design
18%
Simultaneous Reinforcement
21%
Steel Plate
37%
Steel Plate Shear Wall
73%
Steel Plate Shear Wall Structure
25%
Stiffener
19%
Supplementary Cementitious Materials
22%
Sustained Loading
22%
Unbonded
21%
Wet Method
18%