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聚苯基膦酸二苯偶氮酯阻燃剂的合成与表征 总被引:5,自引:0,他引:5
为了解决高分子材料的耐燃性问题,阻燃剂的研究越来越受到广泛重视.聚膦酸酯类化合物是一类重要的膦系阻燃剂[1~4],与传统的非聚合型阻燃剂相比,这种阻燃剂具有阻燃效果好、低烟低毒、与聚合物基材相容性好、耐迁移、耐挥发、阻燃效果持久等优点,成为阻燃剂研究... 相似文献
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磷系阻燃环氧树脂具有阻燃效率高、制备成本低、环境危害小等显著优点,成为5G通讯、智能电子和半导体等领域的重要封装材料。基于高效磷系阻燃环氧封装材料的性能要求,介绍了磷系阻燃环氧树脂的种类和阻燃机理,总结了当前磷系阻燃环氧树脂在电子封装领域的应用研究进展并对其未来发展趋势进行了展望,指出本征型(反应型)磷系阻燃环氧树脂存在制备困难、有效磷含量低等问题,需要进一步优化工艺并提升封装体系中的磷含量。相比之下,填充型磷系阻燃环氧树脂的制备工艺简单、阻燃剂种类多、磷含量较高,在电子封装领域应用最为广泛。 相似文献
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以氯化螺环磷酸酯(1)和对甲苯胺(2)为原料,经亲核取代反应合成了"三源"一体的新型单分子磷-氮膨胀型阻燃剂——季戊四醇螺环磷酰对甲苯胺(3),其结构经1H NMR和IR表征。考察了溶剂、原料配比、反应温度、反应时间和缚酸剂对3产率的影响。合成3的最佳反应条件为:乙腈为溶剂,三乙胺为缚酸剂,1 10mmol,n(1)∶n(2)=1∶3,于80℃反应4 h,产率79.3%。阻燃性能研究结果表明,3的初始分解温度为220℃,500℃成炭率达43.3%。 相似文献
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采用磷系阻燃剂2-羧乙基苯基次磷酸(CEPPA)作为第3单体,通过聚合反应制备了含磷的阻燃共聚酯。采用核磁共振、DSC、元素分析和极限氧指数仪表征阻燃共聚酯的化学组成、序列分布、结晶性能、磷含量和极限氧指数。结果表明:大部分CEPPA单元以无规分布的形式共聚到聚酯分子链中,小部分CEPPA单元以短嵌段的形式共聚在聚酯分子链中,且随着阻燃剂含量增加,无规系数变小。由于分子链的规整性下降,与聚对苯二甲酸乙二酯(PET)相比,阻燃共聚酯的Tg和Tm下降,结晶度减小。随阻燃剂含量的增加,极限氧指数值增加,当阻燃共聚酯中的磷含量达到9.08mg/g时,极限氧指数值达到33%以上。 相似文献
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A review on potential development of flame retardant kenaf fibers reinforced polymer composites
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Kenaf fibers have been extensively explored from the past few decades in polymer composites industries owing to its extensive adaptations, excellent properties together with its comparable mechanical properties to traditional glass fibers polymer composites. The combustibility or lowered flame retardancy hampered the diverse applications of kenaf fibers reinforced polymer composites, as it affects the mechanical strength and stiffness of composites during fire. Current review article intended to be a comprehensive source of published literature involving the flame retardants (FRs), types and applications of FRs and the fabrication of kenaf fibers reinforced polymer composites. This article will also provide a perfect data on the recent development of the FR kenaf fibers polymer composites with different FRs and explored its structural and semi‐structural industrial application for performing further research in this topic. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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In order to explore the structure mode of intumescent flame retardants (IFRs) with higher efficiency, IFR particles with joint‐aggregation structure (@IFR) were obtained through the treatment of ammonium polyphosphate (APP) and a charring agent (PT‐Cluster) in their aqueous solution. Then, the joint‐aggregation IFR effect was researched using its application in polypropylene. In case of 20 wt% IFR loading, the limiting oxygen index (LOI) value of @IFR/PP was 1.1% higher than that of 15APP/5PT‐Cluster/PP mixture, and a 1.6 mm‐thick @IFR/PP composite passed the UL 94 V‐2 rating test, while 15APP/5PT‐Cluster/PP demonstrated no flame‐retardant rating in UL 94 vertical burning tests. In a cone calorimeter test, @IFR also had a better inhibition effect on heat release. The average heat release rate (av‐HRR) value during 0 to 120 seconds of @IFR/PP was only 41 kW m?2, which was 33.9% lower than that of the 15APP/5PT‐Cluster/PP. Furthermore, the peak heat release rate (pk‐HRR) of @IFR/PP was 20.5% lower than that of 15APP/5PT‐Cluster/PP, and the time to pk‐HRR of @IFR/PP was 710 seconds, while that of 15APP/5PT‐Cluster/PP was 580 seconds. The better inhibition effect on HRR and the delay of time to pk‐HRR were caused by the joint‐aggregated structure of @IFR, which can rapidly react to form stable and efficient char layers. This kind of join‐aggregation IFR effect has great significance in suppressing the spread of fire in reality. In addition, @IFR also increased the mechanical properties of PP composites slightly compared with the APP/PT‐Cluster mixture. 相似文献
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含季戊四醇磷酸酯阻燃剂的合成与表征 总被引:1,自引:0,他引:1
采用1-氧代-4-羟甲基-2,6,7-三氧杂-1-磷杂双环[2.2.2]辛烷(PEPA)、三氯氧磷、双酚A和双酚S为反应物,合成了两个新型添加型阻燃剂:双酚A双[二(1-氧代-1-磷杂-2,6,7-三氧杂双环辛烷-4-亚甲基)]磷酸酯(BAPP)和双酚S双[二(1-氧代-1-磷杂-2,6,7-三氧杂双环辛烷-4-亚甲基)]磷酸酯(BSPP),通过元素分析、FT-IR和1H NMR等表征了标题化合物的结构,结果表明,所合成的标题化合物的结构与预期一致。热失重分析结果证明,BAPP和BSPP质量损失5%(wt)时的温度分别为343.6℃和352.3℃,600℃残余量分别达46.6%和55.5%,具有较高的热稳定性和结炭性能。阻燃性能实验证明,E-51环氧树脂中分别添加质量分数为18.2%(wt)的BAPP和BSPP时,极限氧指数分别为32.2%和31.8%,均能达到UL 94 V-0级。 相似文献
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聚对苯二甲酸丙二醇酯作为新型聚酯材料,具有非常优良的性能,但其易燃性很大的限制了它的应用范围。为了提高对苯二甲酸乙二醇酯的阻燃性能,本文以无卤膨胀型EPFR-300A为阻燃改性剂,马来酸酐接枝聚烯烃(POE-g-MAH)弹性体为增韧剂,对聚对苯二甲酸丙二醇酯树脂(PTT)进行阻燃改性。通过热重分析仪(TGA)、示差扫描量热仪(DSC)、扫描电子显微镜(SEM)、力学性能等技术手段研究了阻燃剂和增韧剂对PTT树脂力学、热学和阻燃性能的影响。结果表明,增韧剂POE和POE-g-MAH的添加提高了PTT树脂的综合力学性能。当质量分数相同时,POE-g-MAH对PTT树脂的增韧效果要优于POE,且当POE-g-MAH质量分数为7%时,综合力学性能最佳。当添加相同质量分数增韧剂,EPFR-300A质量分数达到20%时,阻燃PTT材料阻燃性能最佳,极限氧指数(LOI)达到28.0%,垂直燃烧阻燃等级达到UL94 V-0级。EPFR-300A阻燃剂与PTT树脂间相容性良好,可以有效地促进PTT树脂成炭并提高材料的阻燃性能。 相似文献
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以9,10-二氢-9-氧杂-10-磷杂菲-10-氧化物和1,4-丁二醇二缩水甘油醚为原料,合成了一种新型的反应型阻燃剂1-(2-羟基-3-磷杂菲)丙氧基-4-环氧丙氧基丁烷(1),其结构和性能经1H NMR, 31P NMR, FT-IR和TG表征。以1为封端剂,聚氨酯(PU)为基材,制备了1/PU阻燃复合材料(2),研究了1对2阻燃性能和力学性能的影响,初步探讨了1的阻燃机理。结果表明:1具有气相和凝聚相阻燃作用,2燃烧后可形成致密光滑炭层,使点燃时间延长,改善了燃烧熔滴现象。1含量为1%时,21的LOI为27%, UL-94燃烧等级为V-0级。 相似文献