工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
4期
9-14
,共6页
杨保平%陈碧碧%崔锦峰%周应萍%包雪梅%魏小赟%郭军红
楊保平%陳碧碧%崔錦峰%週應萍%包雪梅%魏小赟%郭軍紅
양보평%진벽벽%최금봉%주응평%포설매%위소빈%곽군홍
阻燃%聚酯%复合材料%性能
阻燃%聚酯%複閤材料%性能
조연%취지%복합재료%성능
flame retardant%polyester%composite%performance
采用直接酯化法,使用反应型含磷单体合成阻燃聚酯,在酯化产物中加入改性纳米SiO2制备阻燃聚酯/纳米SiO2复合材料,使用热重(TG)分析、扫描电子显微镜(SEM)、极限氧指数(LOI)测试、X射线能谱(EDS)分析等对复合材料进行分析和研究。LOI测试结果显示,随着磷含量的增加,LOI逐渐上升;当纳米SiO2质量分数大于1.8%时,LOI降低。TG分析结果表明,磷元素的加入促进质量保持率的提高,硅元素的加入提高炭层性能和提高质量保持率。SEM显示,燃烧后的复合材料形成多孔且致密的炭层,抑制热量的传输和扩散。EDS元素分析显示,燃烧后磷、硅元素均匀分布在炭层中,增强炭层性能,从而提高材料的阻燃性能。
採用直接酯化法,使用反應型含燐單體閤成阻燃聚酯,在酯化產物中加入改性納米SiO2製備阻燃聚酯/納米SiO2複閤材料,使用熱重(TG)分析、掃描電子顯微鏡(SEM)、極限氧指數(LOI)測試、X射線能譜(EDS)分析等對複閤材料進行分析和研究。LOI測試結果顯示,隨著燐含量的增加,LOI逐漸上升;噹納米SiO2質量分數大于1.8%時,LOI降低。TG分析結果錶明,燐元素的加入促進質量保持率的提高,硅元素的加入提高炭層性能和提高質量保持率。SEM顯示,燃燒後的複閤材料形成多孔且緻密的炭層,抑製熱量的傳輸和擴散。EDS元素分析顯示,燃燒後燐、硅元素均勻分佈在炭層中,增彊炭層性能,從而提高材料的阻燃性能。
채용직접지화법,사용반응형함린단체합성조연취지,재지화산물중가입개성납미SiO2제비조연취지/납미SiO2복합재료,사용열중(TG)분석、소묘전자현미경(SEM)、겁한양지수(LOI)측시、X사선능보(EDS)분석등대복합재료진행분석화연구。LOI측시결과현시,수착린함량적증가,LOI축점상승;당납미SiO2질량분수대우1.8%시,LOI강저。TG분석결과표명,린원소적가입촉진질량보지솔적제고,규원소적가입제고탄층성능화제고질량보지솔。SEM현시,연소후적복합재료형성다공차치밀적탄층,억제열량적전수화확산。EDS원소분석현시,연소후린、규원소균균분포재탄층중,증강탄층성능,종이제고재료적조연성능。
The prepared retardant polyester was prepared by using reactive phosphorous monomer though the direct esterification method,and SiO2 was added into the esterification products to prepare flame retardant polyester/SiO2 nanocompo-sites. The composites were investigated by TG,SEM, EDS and limiting oxygen index(LOI) measurement. The results show that the LOI increases with the increase of phosphorus content;LOI reduces when the mass fraction of SiO2 is greater than 1.8%. The TG result indicates that the phosphorylation of polyester ignificantly enhances quality retention,and that the silicon of the composite improve the carbon layer performance and increases the quality retention. The SEM result shows that the composites form lacunaris and compact charred layers after combustion,which inhibit the transmission of heat. EDS element alanalysis confirms that phosphorous and silicon elements evenly distribute in the charred layers,which enhances carbon layer performance and improves flame retardant properties of the composite during combustion.