Singapore Institute of Technology
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Wai Leong, Eugene Wong

Publications

  • Θ-Net: Achieving Enhanced Phase-Modulated Optical Nanoscopyin silicothrough a computational‘string of beads’architecture
  • Microstructure and Damping Characteristics of Mg and its Composites Containing Metastable Al85Ti15 Particles
  • Using Microwave Energy to Synthesize Light Weight/Energy Saving Magnesium Based Materials: A Review
  • Effect of addition of nano-al2o3 and copper particulates and heat treatment on the tensile response of az61 magnesium alloy
  • Development of high performance Mg-Al 2O 3 composites containing Al 2O 3 in submicron length scale using microwave assisted rapid sintering
  • Energy efficient sintering of Al/Cu nanocomposites using different microwave power levels
  • Microwave processing of magnesium based materials: A review
  • Tensile and Compressive Responses of Ceramic and Metallic Nanoparticle Reinforced Mg Composites
  • Enhancing hardness, CTE and compressive response of powder metallurgy magnesium reinforced with metastable Al90Y10 powder particles
  • Effect of erbium modification on the microstructure, mechanical and corrosion characteristics of binary Mg-Al alloys
  • Synthesis and characterization of hybrid aluminum composites reinforced with Ni particulates and interconnected Fe mesh
  • Effect of hybrid length scales (Micro + nano) of SiC reinforcement on the properties of magnesium
  • Resolving the viscoelasticity and anisotropy dependence of the mechanical properties of skin from a porcine model
  • Synthesis and properties of light weight magnesium-cenosphere composite
  • Characterization and Performance of Additive Manufactured Novel bio-waste Polylactic acid eco-friendly Composites
  • Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique
  • Influence of nano-alumina and sub-micron copper on mechanical properties of magnesium alloy AZ31
  • Microwaves and Metals
  • Characteristics of aluminum and magnesium based nanocomposites processed using hybrid microwave sintering
  • Using microwaves to synthesize pure aluminum and metastable Al/Cu nanocomposites with superior properties
  • An insight into processing and characteristics of magnesium based composites
  • Development of metallic materials using hybrid microwave assisted rapid sintering
  • Development of hybrid Mg/Al 2O 3 composites with improved properties using microwave assisted rapid sintering route
  • Using hybrid reinforcement methodology to enhance overall mechanical performance of pure magnesium
  • Enhancing strength and ductility of magnesium by integrating it with aluminum nanoparticles
  • Improving overall mechanical performance of magnesium using nano-alumina reinforcement and energy efficient microwave assisted processing route
  • Development of Mg/Cu nanocomposites using microwave assisted rapid sintering
  • Simultaneously improving strength and ductility of magnesium using nano-size SiC particulates and microwaves
  • Development of innovative magnesium based composite formulations using disintegrated melt deposition methodology
  • Enhancing the mechanical properties of pure aluminum using hybrid reinforcement methodology
  • Effect of hybrid length scales (micro + nano) of SiC reinforcement on the properties of magnesium
  • Synthesis and characterization of hybrid aluminum composites reinforced with Ni particulates and interconnected Fe mesh
  • Development of Mg/Cu nanocomposites using microwave assisted powder metallurgy technique
  • Development of high performance Mg/SiC composites containing nano-size SiC using microwave assisted rapid sintering
  • Enhancing thermal stability, modulus and ductility of magnesium using molybdenum as reinforcement
  • Enhancing overall mechanical performance of metallic materials using two-directional microwave assisted rapid sintering
  • Enhancing overall static/dynamic/damping/ignition response of magnesium through the addition of lower amounts (<2%) of yttrium
  • Design for scalability and strength optimisation for components created through fdm process
  • Experiment based investigation into micro machinability of Mg based metal matrix composites (MMCs) with nano-sized reinforcements
  • High performance magnesium based composites containing nano-length scale/amorphous/hollow reinforcements
  • Magnesium-based nanocomposites: Lightweight materials of the future
  • Micro-machinability of nanoparticle-reinforced Mg-based MMCs: an experimental investigation
  • Smart Nanoscopy: A Review of Computational Approaches to Achieve Super-Resolved Optical Microscopy
  • In situ resin‐injection approach for repairing barely visible impact damaged carbon‐fiber reinforced epoxy laminates: Optimizing the repair parameters using Taguchi method

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