Progress of Silicone Flame Retardants in Polyolefins

被引：0

作者：

Li B. ^{[1
]}

Li X. ^{[1
]}

Chen G. ^{[2
]}

机构：

[1] Department of Applied Chemistry, Hengshui University, Hengshui

[2] College of Material Science and Engineering, Shandong University, Jinan

来源：

Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering | 2020年 / 36卷 / 09期

关键词：

Flame retardant; Polyolefin; Silicon;

D O I：

10.16865/j.cnki.1000-7555.2020.0207

中图分类号：

学科分类号：

摘要：

Polyolefin, a kind of thermoplastic with low price, excellent mechanical properties and chemical stability, was widely used in market. However, as extremely flammable substance with the production of a large number of droplets, the application of polyolefin in fields requiring high fire safety, such as wire and cabled, was restricted. To improve the flame-retardant performance of polyolefin, various flame retardants and technologies have been developed. Among them, silicone flame retardant, with high-efficiency, anti-droplet, low-smoke and environment-friendly properties, was considered to be a promising flame retardant. Therefore, the research progress of silicone flame retardant in polyolefins in recent years was reviewed in this paper, and the application prospect was also forecasted. © 2020, Editorial Board of Polymer Materials Science & Engineering. All right reserved.

引用

页码：157 / 164

页数：7

共 35 条

[21] Marosi G, Marton A, Anna P, Et al., Ceramic precursor in flame retardant systems, Polymer Degradation and Stability, 77, pp. 259-265, (2002)
[22] Huang Y W, Song J J, Ma J J, Et al., Synthesis of a phosphorus/silicon hybrid and its synergistic effect with melamine polyphosphates on flame retardant polypropylene system, Journal of Applied Polymer Science, 129, pp. 316-323, (2013)
[23] Li Q, Jiang P, Wei P., Synthesis, characteristic, and application of new flame retardant containing phosphorus, nitrogen, and silicon, Polymer Engineering Science, 46, pp. 344-350, (2006)
[24] Li Q, Jiang P, Su Z, Et al., Synergistic effect of phosphorus, nitrogen, and silicon on flame-retardant properties and char yield in polypropylene, Journal of Applied Polymer Science, 96, pp. 854-860, (2005)
[25] Qian Y, Wei P, Jiang P K, Et al., Synthesis of a novel hybrid synergistic flame retardant and its application in PP/IFR, Polymer Degradation and Stability, 96, pp. 1134-1140, (2011)
[26] Lipponen S H, Seppala J V., Ethylenebis(indenyl)zirconium dichloride/ methylaluminoxane-catalyzed copolymerization of ethylene and 1-alkene-n-trimethylsilanes, Organometallics, 30, pp. 528-533, (2011)
[27] Groch P, Dziubek K, Czaja K, Et al., Synthesis and structural characterization of ethylene copolymers containing double-decker silsesquioxane as pendant groups and cross-linkage sites by coordinative copolymerization, European Polymer Journal, 100, pp. 187-199, (2018)
[28] Zhang H X, Shin Y J, Yoon K B, Et al., Preparation and properties of propylene/POSS copolymer with rac-Et(Ind)<sub>2</sub>ZrCl<sub>2</sub> catalyst, European Polymer Journal, 45, pp. 40-46, (2009)
[29] Groch P, Dziubek K, Czaja K, Et al., Ethylene/POSS copolymerization behavior of postmetallocene catalysts and copolymer characteristics, Journal of Polymer Science Part A: Polymer Chemistry, 55, pp. 3918-3934, (2017)
[30] Groch P, Dziubek K, Czaja K, Et al., Copolymers of ethylene with monoalkenyl-and monoalkenyl(siloxy)silsesquioxane (POSS) comonomers-synthesis and characterization, European Polymer Journal, 90, pp. 368-382, (2017)

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