1 |
The enhanced compatibility and flame retarding ability of UHMWPE-MH composites by adding phenoxycyclophosphazene (HPCTP) Shen LG, Li JX, Lin HJ, Feng SS, Zhang YC Polymer Bulletin, 74(9), 3639, 2017 |
2 |
Highly flame-retarding cotton fabrics with a novel phosphorus/nitrogen intumescent flame retardant Zhao P, Li X, Zhang M, Liu S, Liang W, Liu Y Korean Journal of Chemical Engineering, 31(9), 1592, 2014 |
3 |
Inhibitory action of flame retardant on the dynamic evolution of asphalt pyrolysis volatiles Xu T, Wang HC, Huang XM, Li GF Fuel, 105, 757, 2013 |
4 |
Effect of ionic liquid as a flame-retarding additive on the cycling performance and thermal stability of lithium-ion batteries Bae SY, Shim EG, Kim DW Journal of Power Sources, 244, 266, 2013 |
5 |
COMBUSTION PROPERTIES AND MULTISTAGE KINETICS MODELS OF ASPHALT BINDER FILLED WITH FLAME RETARDANT Xu T, Huang XM Combustion Science and Technology, 183(10), 1027, 2011 |
6 |
Effect of the concentration of diphenyloctyl phosphate as a flame-retarding additive on the electrochemical performance of lithium-ion batteries Shim EG, Nam TH, Kim JG, Kim HS, Moon SI Electrochimica Acta, 54(8), 2276, 2009 |
7 |
Study on the properties of microcapsulated chlorocyclophosphazene polypropylene composites Yaqing L, Guizhe Z Chinese Journal of Chemical Engineering, 15(3), 429, 2007 |
8 |
Flame-retarding materials. II. Synthesis and flame-retarding properties of phosphorus-on-pendent and phosphorus-on-skeleton polyols and the corresponding polyurethanes Wang TL, Cho YL, Kuo PL Journal of Applied Polymer Science, 82(2), 343, 2001 |