|Asst Prof Li Peifeng|
Division of Aerospace Engineering
School of Mechanical & Aerospace Engineering
College of Engineering
Phone: (+65)6790 4766
- PhD (MatlSc) University of London, Imperial College 2007
- MEng (MatlEng) Tsinghua University 2001
- BEng (MechEng) Tsinghua University 1999
|Dr. Li received a BEng in mechanical engineering (1999) and an MEng in materials processing engineering (2001) from Tsinghua University. After a period in industry, he studied for a PhD in materials science at Imperial College London in 2003-2006. During his PhD, he was also a visiting scholar at the University of British Columbia sponsored by the Royal Academy of Engineering (2004 & 2005). Upon completion of his PhD, he conducted his postdoctoral research in Solid Mechanics and Materials Engineering Group of the University of Oxford in 2007-2010. He then joined NTU as an Assistant Professor in 2010.|
|Dr. Li’s research focuses on improving our understanding of the process-structure-mechanical property relationship of materials. The main strategy is the use of combined advanced experimental characterisation and multiscale material modelling techniques. Application includes lightweight metals, porous materials, composites and thermal barrier coatings for automotive, aerospace and defence sectors.|
|Research Grant |
- A*STAR Science and Engineering Research Council (2011-) [by A*STAR Science & Engineering Research Council (SERC)]
- Academic Research Fund Tier 1 (2012-) [by Ministry of Education (MOE)]
- Defence Science Organisation National Laboratories (2012-2014) [by MINDEF - DSO National Laboratories]
- Lee Foundation (2012-) [by Lee Foundation]
- MINDEF-NTU Joint Applied R&D Co-operation Programme (JPP) (2012-) [by Nanyang Technological University, Ministry of Defense (MINDEF)]
- SIMTech - NTU Joint Lab (2012-) [by A*STAR Singapore Institute of Manufacturing Technology (SIMTech)]
- Start Up Grant (2010-2013) [by Nanyang Technological University]
|Current Projects |
- Characterising the 3D damage micromechanism of composites
- Detailed Design of Solar-Powered UAV
- Fabrication and 3D failure micromechanisms of novel titanium foams for aerostructures
- High Performance BMI and BMI/epoxy IPN Thermoset Composites
- Non-Destruction Evaluation Techniques For Defect And Reliability Assessment of Remanufactured Components
- Simulating the Behaviour of Hollow Sphere Foams
- X-ray CT Inspection Assisted Failure Mechanism Analysis of Metallic Foams
- P Li, N Petrinic and CR Siviour. (2013). Microstructure and x-ray microtomographic characterisation of deformation in electrodeposited nickel thin-walled hollow spheres. Materials Letters, 100, 233-236.
- P Li, N Petrinic and CR Siviour. (2012). Finite Element Modelling of the Mechanism of Deformation and Failure in Metallic Thin-walled Hollow Spheres under Dynamic Compression. Mechanics of Materials, 54, 43-54.
- P Li, N Petrinic and CR Siviour. (2011). Quantification of Impact Energy Dissipation Capacity in Metallic Thin-walled Hollow Sphere Foams using High Speed Photography. Journal of Applied Physics, 110(8), 083516.
- P Li, CR Siviour and N Petrinic. (2009). The Effect of Strain Rate, Specimen Geometry and Lubrication on Responses of Aluminium AA2024 in Uniaxial Compression Experiments. Experimental Mechanics, 49(4), 587-593.
- P Li, PD Lee, DM Maijer and TC Lindley. (2009). Quantification of the Interaction within Defect Populations on Fatigue Behavior in an Aluminum Alloy. Acta Materialia, 57(12), 3546-3555.