聚丙烯-colemanite与膨胀型阻燃添加剂共混物的阻燃性能研究

Merve Kahraman, N. Kızılcan
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摘要

聚丙烯(PP)在聚烯烃(PO)中占相当大的比例,用于不同的工业应用,如汽车零部件、纺织品、包装、绝缘、医疗设备、各种家庭用品和家用电器,因为它具有高效的成本、理想的机械、热和电气性能、易于加工和可回收性。由于其碳质结构,PP是一种高度易燃的材料,其LOI值为18,具有严重的火灾危险。在聚丙烯中加入膨胀型阻燃剂(IFR)和colemanite,使其占聚合物总质量的30%,并通过极限氧指数(LOI)、热丝测试(GWT)、UL-94测试和力学性能测试,研究了膨胀型阻燃剂(IFR)与colemanite添加剂在PP中的增效作用。LOI、UL 94和灼热丝测试结果表明,当掺量为2 wt.%时,阻燃剂的LOI值可达37.6%,阻燃剂总掺量为30 wt.%。此外,PP/IFR化合物通过UL 94 V0等级和750°C和850°C的灼热丝测试,并具有2-8 wt.%的colemanite负载。TGA分析结果表明,煤柱石提高了PP/IFR化合物的热稳定性,促进了炭层的形成。在聚丙烯中加入非IFR体系的colemanite矿物对聚丙烯的阻燃性能没有影响。当考虑到所有的性质时,在IFR中可以使用高达6 wt%的colemanite。
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Investigation of flame retardancy properties of polypropylene-colemanite and intumescent flame retardant additive blends
Polypropylene (PP) represents a considerable proportion of polyolefins (PO) used in different industrial applications such as automobile components, textiles, packaging, insulation, medical devices, various housewares and household appliances due to its efficient cost, desirable mechanical, thermal and electrical properties, easy processability and recyclability. Because of its carbonaceous structure, PP is a highly flammable material with a LOI value of 18 that presents serious fire hazard. In this research, Intumescent flame retardant (IFR) and colemanite were added to polypropylene to compose 30% of the total mass of the polymeric compounds and the synergistic effect of colemanite with intumescent flame retardant (IFR) additive in PP was investigated by limiting oxygen index (LOI), glow wire test (GWT), UL-94 test and mechanical properties measurements. The LOI, UL 94 and glow wire test results showed that colemanite had a significant effect on flame retardancy and LOI value which can reach to 37.6 % with loading level of 2 wt.% colemanite at the total amount of flame retardant additives kept constant at 30 wt.%. Additionally, the PP/IFR compounds passed UL 94 V0 rating and both 750 °C and 850 °C glow wire tests and with 2-8 wt.% colemanite loading. According to TGA analyses, the results indicated that colemanite improved the thermal stability of PP/IFR compounds and also promoted the formation of char layer. When colemanite mineral added to polypropylene without IFR system, it has no effect on flame retardancy properties of polypropylene. When all properties have been taken into consideration, colemanite can be used up to 6 wt% in IFR.
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