工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2015年
4期
22-26
,共5页
张永春%徐静%冯钠%张宏友%吴鸣宇
張永春%徐靜%馮鈉%張宏友%吳鳴宇
장영춘%서정%풍납%장굉우%오명우
热塑性聚烯烃弹性体%硅橡胶%氢氧化镁%抗滴落
熱塑性聚烯烴彈性體%硅橡膠%氫氧化鎂%抗滴落
열소성취희경탄성체%규상효%경양화미%항적락
thermoplastic polyolefin elastomer%silicon rubber%Mg(OH)2%anti-dripping
采用熔融法制备了一种阻燃、抗滴落热塑性聚烯烃弹性体(TPO)复合材料,探讨了硅橡胶与Mg(OH)2的协同阻燃与抗滴落作用。结果表明,当硅橡胶/Mg(OH)2为20/80时,复合材料的极限氧指数提高到31.6%,且熔融滴落现象明显改善;TG分析表明,硅橡胶的加入,使TPO/硅橡胶/Mg(OH)2复合材料的分解温度有所提高,热稳定性和抵抗热分解能力增强;燃烧炭层的FTIR分析表明,加入硅橡胶后,复合材料内Si—O键的数量明显增加,说明硅橡胶具有抗滴落作用。拉伸应力–应变行为研究表明,硅橡胶/Mg(OH)2为20/80时,复合材料的拉伸强度达到2.81 MPa,断裂伸长率达到343.3%。
採用鎔融法製備瞭一種阻燃、抗滴落熱塑性聚烯烴彈性體(TPO)複閤材料,探討瞭硅橡膠與Mg(OH)2的協同阻燃與抗滴落作用。結果錶明,噹硅橡膠/Mg(OH)2為20/80時,複閤材料的極限氧指數提高到31.6%,且鎔融滴落現象明顯改善;TG分析錶明,硅橡膠的加入,使TPO/硅橡膠/Mg(OH)2複閤材料的分解溫度有所提高,熱穩定性和牴抗熱分解能力增彊;燃燒炭層的FTIR分析錶明,加入硅橡膠後,複閤材料內Si—O鍵的數量明顯增加,說明硅橡膠具有抗滴落作用。拉伸應力–應變行為研究錶明,硅橡膠/Mg(OH)2為20/80時,複閤材料的拉伸彊度達到2.81 MPa,斷裂伸長率達到343.3%。
채용용융법제비료일충조연、항적락열소성취희경탄성체(TPO)복합재료,탐토료규상효여Mg(OH)2적협동조연여항적락작용。결과표명,당규상효/Mg(OH)2위20/80시,복합재료적겁한양지수제고도31.6%,차용융적락현상명현개선;TG분석표명,규상효적가입,사TPO/규상효/Mg(OH)2복합재료적분해온도유소제고,열은정성화저항열분해능력증강;연소탄층적FTIR분석표명,가입규상효후,복합재료내Si—O건적수량명현증가,설명규상효구유항적락작용。랍신응력–응변행위연구표명,규상효/Mg(OH)2위20/80시,복합재료적랍신강도체도2.81 MPa,단렬신장솔체도343.3%。
Thermoplastic polyolefin elastomer(TPO) composites with flame retardant and anti-dripping were made with the way of melting. The effect of silicone rubber and Mg(OH)2 on the flame retardant and anti-dripping properties of the composites were discussed. When the silicone rubber/Mg(OH)2 is 20/80,the limiting oxygen index of the composites is reached to 31.6%, and the melting and dripping phenomenons are improved obviously. TG analysis show that with the adding of silicone rubber,the decomposition temperature is improved,the thermal stability and resistance to thermal decomposition ability enhance. FTIR analysis show that the number of Si—O structure is improved obviously,and further prove silicone rubber has the effect of anti-dripping. The study of behavior of stress and strain show the silicone rubber/Mg(OH)2 is 20/80,the tensile strength of the composite arrives 2.81 MPa,the elongation at break is up to 343.3%.