His primary areas of investigation include Composite material, Fire retardant, Nanocomposite, Polypropylene and Graphene. He combines subjects such as Cone calorimeter and Thermal stability with his study of Composite material. Specifically, his work in Fire retardant is concerned with the study of Intumescent.
His Nanocomposite study frequently draws parallels with other fields, such as Epoxy. He focuses mostly in the field of Polypropylene, narrowing it down to topics relating to Flammability and, in certain cases, Thermal oxidation, Grafting, Calorimetry, Char and Pyrolysis. The Graphene study combines topics in areas such as Oxide, Energy-dispersive X-ray spectroscopy, Dynamic mechanical analysis, Polymer nanocomposite and X-ray photoelectron spectroscopy.
Pingan Song mostly deals with Composite material, Fire retardant, Nanocomposite, Thermal stability and Polymer. When carried out as part of a general Composite material research project, his work on Ultimate tensile strength, Polypropylene, Carbon nanotube and Flammability is frequently linked to work in Fabrication, therefore connecting diverse disciplines of study. The study incorporates disciplines such as Composite number, Lignin and Limiting oxygen index in addition to Fire retardant.
His studies deal with areas such as Covalent bond, Grafting, Epoxy and Graphene as well as Nanocomposite. His work carried out in the field of Thermal stability brings together such families of science as Thermal analysis, Dynamic mechanical analysis, Polymer chemistry, Thermogravimetric analysis and Char. His study in Polymer is interdisciplinary in nature, drawing from both Nanotechnology and Toughness.
The scientist’s investigation covers issues in Fire retardant, Composite material, Polymer, Nanocomposite and Ultimate tensile strength. His research integrates issues of Combustion, Thermosetting polymer, Polylactic acid, Composite number and Flammability in his study of Fire retardant. His Composite material research is multidisciplinary, incorporating elements of Carbon and Hexagonal boron nitride.
His Polymer research is multidisciplinary, relying on both Toughness, Strain and Thermal stability. His research in Thermal stability intersects with topics in Nanotechnology and Polycarbonate. In his research on the topic of Nanocomposite, Polydimethylsiloxane and One-Step is strongly related with Graphene.
Pingan Song mainly investigates Fire retardant, Toughness, Polymer, Polylactic acid and Flammability. His Fire retardant study introduces a deeper knowledge of Composite material. His work on Ultimate tensile strength, Silane and Polyurethane as part of general Composite material research is often related to Flame detection, thus linking different fields of science.
His work is dedicated to discovering how Polymer, Thermal stability are connected with Nanoparticle, Biomimetics and Hydrogen bond and other disciplines. His Polylactic acid research includes themes of Ductility, Grafting, Ammonium polyphosphate and Lignin. He works mostly in the field of Flammability, limiting it down to topics relating to Composite number and, in certain cases, Thermal decomposition, Limiting oxygen index and Condensation polymer.
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Fabrication of exfoliated graphene-based polypropylene nanocomposites with enhanced mechanical and thermal properties
Pingan Song;Zhenhu Cao;Zhenhu Cao;Yuanzheng Cai;Yuanzheng Cai;Liping Zhao;Liping Zhao.
Improved flame resistance and thermo-mechanical properties of epoxy resin nanocomposites from functionalized graphene oxide via self-assembly in water
Fang Fang;Fang Fang;Shiya Ran;Zhengping Fang;Zhengping Fang;Pingan Song.
Composites Part B-engineering (2019)
Combination effect of carbon nanotubes with graphene on intumescent flame-retardant polypropylene nanocomposites
Guobo Huang;Shuqu Wang;Ping’an Song;Chenglin Wu.
Composites Part A-applied Science and Manufacturing (2014)
Flame-retardant-wrapped carbon nanotubes for simultaneously improving the flame retardancy and mechanical properties of polypropylene
Ping'an Song;Ping'an Song;Lihua Xu;Zhenghong Guo;Yan Zhang.
Journal of Materials Chemistry (2008)
Fabrication of Green Lignin-based Flame Retardants for Enhancing the Thermal and Fire Retardancy Properties of Polypropylene/Wood Composites
Lina Liu;Mengbo Qian;Ping’an Song;Guobo Huang.
ACS Sustainable Chemistry & Engineering (2016)
Fabrication of dendrimer-like fullerene (C60)-decorated oligomeric intumescent flame retardant for reducing the thermal oxidation and flammability of polypropylene nanocomposites
Ping'an Song;Ping'an Song;Hui Liu;Yu Shen;Baoxian Du.
Journal of Materials Chemistry (2009)
Functionalized lignin by grafting phosphorus-nitrogen improves the thermal stability and flame retardancy of polypropylene
Youming Yu;Shenyuan Fu;Ping’an Song;Xiping Luo.
Polymer Degradation and Stability (2012)
Super-tough artificial nacre based on graphene oxide via synergistic interface interactions of π-π stacking and hydrogen bonding
Pingan Song;Pingan Song;Pingan Song;Zhiguang Xu;Yuanpeng Wu;Qunfeng Cheng.
Bioinspired strategy to reinforce PVA with improved toughness and thermal properties via hydrogen-bond self-assembly
Ping’an Song;Zhiguang Xu;Qipeng Guo.
ACS Macro Letters (2013)
C(60) reduces the flammability of polypropylene nanocomposites by in situ forming a gelled-ball network.
Ping an Song;Yan Zhu;Lifang Tong;Zhengping Fang;Zhengping Fang.
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