His primary scientific interests are in Composite material, Epoxy, Nanocomposite, Ultimate tensile strength and Composite number. The study of Composite material is intertwined with the study of Graphene in a number of ways. His study in Epoxy is interdisciplinary in nature, drawing from both Dispersion, Glass transition, Differential thermal analysis and Scanning electron microscope.
His studies deal with areas such as Diffractometer, Nanoparticle, Nanowire and In situ polymerization as well as Nanocomposite. His Ultimate tensile strength research is multidisciplinary, incorporating perspectives in Fiber orientation and Glass fiber. He focuses mostly in the field of Composite number, narrowing it down to matters related to Fiber and, in some cases, Elastic modulus.
The scientist’s investigation covers issues in Composite material, Composite number, Ultimate tensile strength, Epoxy and Nanocomposite. Composite material is represented through his Fiber, Carbon nanotube, Polymer, Glass fiber and Modulus research. His Composite number study deals with Graphene intersecting with Coating.
His work on Izod impact strength test as part of general Ultimate tensile strength study is frequently linked to Liquid nitrogen, bridging the gap between disciplines. The concepts of his Epoxy study are interwoven with issues in Differential scanning calorimetry, Glass transition and Scanning electron microscope. Shao-Yun Fu is interested in Polymer nanocomposite, which is a branch of Nanocomposite.
Shao-Yun Fu focuses on Composite material, Composite number, Graphene, Ultimate tensile strength and Epoxy. As part of the same scientific family, Shao-Yun Fu usually focuses on Composite material, concentrating on Thermal stability and intersecting with Glass transition. His Composite number research is multidisciplinary, relying on both Carbon black, Nanocomposite, Carbon nanotube and Piezoresistive effect.
His research integrates issues of Oxide, Thermal conductivity, Absorption, Heterojunction and Dispersion in his study of Graphene. Shao-Yun Fu has researched Ultimate tensile strength in several fields, including Crystal structure, Graphite, Polyetherimide, Toughness and Fracture toughness. His Epoxy study integrates concerns from other disciplines, such as Electrolyte, Modulus, Specific strength and Microscale chemistry.
His main research concerns Composite material, Graphene, Composite number, Oxide and Ultimate tensile strength. His Composite material study frequently draws connections to adjacent fields such as Thermal stability. His Graphene research integrates issues from Thermal conductivity, Absorption, Dielectric loss, Dielectric and Coating.
His studies in Composite number integrate themes in fields like Flexural strength and Modulus. His work carried out in the field of Oxide brings together such families of science as Fiber, Ramie, Stress, Crystallinity and Polypropylene. Shao-Yun Fu interconnects Silicone, Carbon black and Contact force in the investigation of issues within Ultimate tensile strength.
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Effects of particle size, particle/matrix interface adhesion and particle loading on mechanical properties of particulate–polymer composites
Shao-Yun Fu;Xi-Qiao Feng;Bernd Lauke;Yiu-Wing Mai.
Composites Part B-engineering (2008)
Tensile properties of short-glass-fiber- and short-carbon-fiber-reinforced polypropylene composites
S.-Y Fu;B Lauke;E Mäder;C.-Y Yue.
Composites Part A-applied Science and Manufacturing (2000)
Effects of fiber length and fiber orientation distributions on the tensile strength of short-fiber-reinforced polymers
Shao-Yun Fu;Bernd Lauke.
Composites Science and Technology (1996)
Electromagnetic interference shielding effect of nanocomposites with carbon nanotube and shape memory polymer
Chun-Sheng Zhang;Qing-Qing Ni;Qing-Qing Ni;Shao-Yun Fu;Ken Kurashiki.
Composites Science and Technology (2007)
One-Pot Template-Free Synthesis of Monodisperse and Single-Crystal Magnetite Hollow Spheres by a Simple Solvothermal Route
Lu-Ping Zhu;Hong-Mei Xiao;Wei-Dong Zhang;Guo Yang.
Crystal Growth & Design (2008)
Preparation and characterization of transparent ZnO/epoxy nanocomposites with high-UV shielding efficiency
Yuan-Qing Li;Shao-Yun Fu;Yiu-Wing Mai.
Template-free synthesis and characterization of novel 3D urchin-like α-Fe2O3 superstructures
Lu-Ping Zhu;Hong-Mei Xiao;Xian-Ming Liu;Shao-Yun Fu.
Journal of Materials Chemistry (2006)
The elastic modulus of misaligned short-fiber-reinforced polymers
Shao-Yun Fu;Bernd Lauke.
Composites Science and Technology (1998)
Significantly modified tribological performance of epoxy nanocomposites at very low graphene oxide content
Xiao-Jun Shen;Xiao-Jun Shen;Xian-Qiang Pei;Shao-Yun Fu;Shao-Yun Fu;Klaus Friedrich;Klaus Friedrich.
Enhanced Microwave Absorption Performance of Coated Carbon Nanotubes by Optimizing the Fe3O4 Nanocoating Structure
Na Li;Gui-Wen Huang;Yuan-Qing Li;Hong-Mei Xiao.
ACS Applied Materials & Interfaces (2017)
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