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Dr Yi Nie
Assistant Professor in Intelligent Manufacturing
CBI Intelligent Manufacturing Centre
Advanced Intelligent Manufacturing Research Group
Email
YI-NIE
nottingham.edu
cn
h-index
355
Scopus Citations
6
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2010
2024
Research activity per year
Overview
Fingerprint
Network
Research output
(23)
Supervised Work
(1)
Fingerprint
Dive into the research topics where Yi Nie 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
3D Printing
25%
3d Simulation
16%
Additive Manufacturing Technique
19%
Advanced Manufacturing
16%
Bone Substitutes
16%
Bone Tissue Engineering
71%
Compressibility
16%
Compressive Strength
21%
Computational Fluid Dynamics
33%
Defects
28%
Design Optimization
16%
Electric Heater
16%
Electrical Heating
16%
Experimental Result
31%
Extrusion Dies
16%
Fiber Coupler
56%
Filling Process
16%
Flow Channel
38%
Flow Characteristics
25%
Fourier Transform
17%
Heating System
16%
High Pressure Die Casting
33%
Laser Power
53%
Laser Sintering System
78%
Layer Thickness
17%
Lightweight Design
16%
Microstructure
78%
Microstructure Evolution
16%
Motion Control
29%
Multiphase Flows
16%
Nanocomposite
16%
Numerical Model
19%
Optical Fiber
50%
Optical Performance
20%
Parametric Analysis
16%
Performance Improvement
21%
Photopolymerization
16%
Porosity
22%
Power Law Model
16%
Preheating Temperature
16%
Ray Diffraction
17%
Realization
25%
Rheological Behavior
16%
Selective Laser Sintering
97%
Sintering
69%
Sintering Time
22%
Structural Design
16%
Tension Surface
16%
Two-Phase Flow
16%
Viscous Flow
16%
Keyphrases
3D Printing
25%
Additive Manufacturing Techniques
21%
Air Compressibility
16%
Air Jet
16%
Air Porosity
16%
Artificial Bone
25%
Artificial Bone Scaffold
22%
Bone Scaffold
41%
Bone Tissue Engineering
26%
Design Optimization
20%
Electric Heater
30%
Fiber Coupler
20%
Flow Channel
19%
Fused Biconical Taper
43%
Gas Flame
16%
High Pressure Die Casting
33%
Hydroxyapatite Powder
21%
In Vivo Performance
16%
Jet Mixing
16%
Laser Power
41%
Laser Sintering
26%
Layer Thickness
17%
Lightweight Coefficient
16%
Lightweight Design
16%
Mechanical Properties
26%
Microheater
33%
Microstructure
38%
Microstructure Analysis
21%
Multiphase Flow Simulation
16%
Nano-hydroxyapatite (n-HA)
67%
Needle-like
17%
Optical Fiber Couplers
28%
Performance Improvement
21%
Pipe Extrusion
21%
Polylactide Acid
16%
Polymer Melt
28%
Porosity Defects
16%
Printing Fidelity
16%
Rapid Prototyping
20%
Scaffold for Bone Tissue Engineering
38%
Scanning Electron Microscopy
18%
Selective Laser Sintering
100%
Sintering System
78%
Spiral Mandrel Die
33%
Structural Optimization
25%
Systems-based
20%
Thermal-structural
16%
Tricalcium Phosphate
19%
Two-phase Flow Model
16%
Vat Photopolymerization
16%
