高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2012年
6期
1082-1085
,共4页
朱军峰%张光华%董惟昕%马莎莎
硃軍峰%張光華%董惟昕%馬莎莎
주군봉%장광화%동유흔%마사사
PVC%苯甲酰氯%三聚氰胺%新型热稳定剂%合成
PVC%苯甲酰氯%三聚氰胺%新型熱穩定劑%閤成
PVC%분갑선록%삼취청알%신형열은정제%합성
PVC%benzoyl chloride%melamine%a novel-style thermal stabilizer%synthesis
在无溶剂的条件下,用苯甲酰氯(BC)和三聚氰胺(ME)经金属氯化物催化合成了2,4,6-三苯甲酰胺基-1,3,5-均三嗪(TBTA).用红外吸收光谱仪(FT-IR)、核磁共振谱(13C -NMR)和熔点仪表征了2,4,6-三苯甲酰胺基-1,3,5-均三嗪的结构和熔点,然后按固定比例将 TBTA 与 PVC 粉混合,并使用刚果红测试分析了 PVC 和 TBTA 混合物的热稳定性.结果表明,优化的反应条件为:在无溶剂的条件下,苯甲酰氯与三聚氰胺的摩尔比为4:1,0.9% CuCl2(占物料总质量)为催化剂,反应温度90℃,反应时间4 h,此时 TBTA 的产率高达84.5%. CuCl2催化作用缩短了反应时间提高了产率.TBTA 对 PVC 塑料具有良好的热稳定作用.
在無溶劑的條件下,用苯甲酰氯(BC)和三聚氰胺(ME)經金屬氯化物催化閤成瞭2,4,6-三苯甲酰胺基-1,3,5-均三嗪(TBTA).用紅外吸收光譜儀(FT-IR)、覈磁共振譜(13C -NMR)和鎔點儀錶徵瞭2,4,6-三苯甲酰胺基-1,3,5-均三嗪的結構和鎔點,然後按固定比例將 TBTA 與 PVC 粉混閤,併使用剛果紅測試分析瞭 PVC 和 TBTA 混閤物的熱穩定性.結果錶明,優化的反應條件為:在無溶劑的條件下,苯甲酰氯與三聚氰胺的摩爾比為4:1,0.9% CuCl2(佔物料總質量)為催化劑,反應溫度90℃,反應時間4 h,此時 TBTA 的產率高達84.5%. CuCl2催化作用縮短瞭反應時間提高瞭產率.TBTA 對 PVC 塑料具有良好的熱穩定作用.
재무용제적조건하,용분갑선록(BC)화삼취청알(ME)경금속록화물최화합성료2,4,6-삼분갑선알기-1,3,5-균삼진(TBTA).용홍외흡수광보의(FT-IR)、핵자공진보(13C -NMR)화용점의표정료2,4,6-삼분갑선알기-1,3,5-균삼진적결구화용점,연후안고정비례장 TBTA 여 PVC 분혼합,병사용강과홍측시분석료 PVC 화 TBTA 혼합물적열은정성.결과표명,우화적반응조건위:재무용제적조건하,분갑선록여삼취청알적마이비위4:1,0.9% CuCl2(점물료총질량)위최화제,반응온도90℃,반응시간4 h,차시 TBTA 적산솔고체84.5%. CuCl2최화작용축단료반응시간제고료산솔.TBTA 대 PVC 소료구유량호적열은정작용.
With metal chlorides as catalysts and without any solvent, N,N',N'-1,3,5-Triazine-2,4,6-triyltris-benzamide (TBTA) was synthesized by using benzoyl chloride (BC) and melamine (ME) as raw materials. The structure and properties of the obtained TBTA were characterized by Fourier transform infrared spectroscopy (FT-IR), 13C nuclear magnetic resonance (13C-NMR) and melting point apparatus. Besides, the obtained TBTA was blended with PVC powder at the regular ratio. Then the thermal stability of the mixture powder of PVC and TBTA was tested according to Congo red experiment. The reaction conditions of TBTA synthesizing were optimized. Under the condition of solvent-free and with 0.9%(total mass of reactants) CuCl2 as catalyst, when the molar ratio of benzoyl chloride to melamine is 4:1, the reaction temperature is 90℃ and the reaction time is 4 h, the yield of TBTA is improved up to 84.5%. Using CuCl2 as catalyst can reduce reaction time and improve the TBTA yield. Moreover, adding the TBTA can make the PVC to have a good thermostability.