纤维素科学与技术
纖維素科學與技術
섬유소과학여기술
JOURNAL OF CELLULOSE SCIENCE AND TECHNOLOGY
2009年
4期
16-20
,共5页
刘鑫秀%郑明凤%廖毅坚%程贤甦
劉鑫秀%鄭明鳳%廖毅堅%程賢甦
류흠수%정명봉%료의견%정현소
酶解木质素%氯化%改性
酶解木質素%氯化%改性
매해목질소%록화%개성
enzymatic hydrolysis lignin%chlorination%modification
以酶解木质素为原料,在水相条件下通入氯气合成氯化木质素.考察了木质素与水的配比、有无紫外光催化、反应温度和通氯量对产物得率和氯含量的影响,并对产物进行了红外光谱和热重分析.结果表明,在氯气过量的情况下,产物氯含量达到29.8%,有紫外光催化时产物氯含量比较低,不加热时的产物氯含量更高,产物氯含量随氯气的增加而增大.氯化木质素的红外光谱图在1720 cm~(-1)处羰基强度明显增强,680 cm~(-1)附近出现C-Cl的特征吸收峰,说明Cl_2与酶解木质素发生了取代反应.热重分析结果表明,氯化木质素的耐热性比酶解木质素稍差.与PVC共混改性的结果表明,氯化木质素改善了原有木质素分子的极性,有望作为极性高聚物共混改性的相容剂使用.
以酶解木質素為原料,在水相條件下通入氯氣閤成氯化木質素.攷察瞭木質素與水的配比、有無紫外光催化、反應溫度和通氯量對產物得率和氯含量的影響,併對產物進行瞭紅外光譜和熱重分析.結果錶明,在氯氣過量的情況下,產物氯含量達到29.8%,有紫外光催化時產物氯含量比較低,不加熱時的產物氯含量更高,產物氯含量隨氯氣的增加而增大.氯化木質素的紅外光譜圖在1720 cm~(-1)處羰基彊度明顯增彊,680 cm~(-1)附近齣現C-Cl的特徵吸收峰,說明Cl_2與酶解木質素髮生瞭取代反應.熱重分析結果錶明,氯化木質素的耐熱性比酶解木質素稍差.與PVC共混改性的結果錶明,氯化木質素改善瞭原有木質素分子的極性,有望作為極性高聚物共混改性的相容劑使用.
이매해목질소위원료,재수상조건하통입록기합성록화목질소.고찰료목질소여수적배비、유무자외광최화、반응온도화통록량대산물득솔화록함량적영향,병대산물진행료홍외광보화열중분석.결과표명,재록기과량적정황하,산물록함량체도29.8%,유자외광최화시산물록함량비교저,불가열시적산물록함량경고,산물록함량수록기적증가이증대.록화목질소적홍외광보도재1720 cm~(-1)처탄기강도명현증강,680 cm~(-1)부근출현C-Cl적특정흡수봉,설명Cl_2여매해목질소발생료취대반응.열중분석결과표명,록화목질소적내열성비매해목질소초차.여PVC공혼개성적결과표명,록화목질소개선료원유목질소분자적겁성,유망작위겁성고취물공혼개성적상용제사용.
The synthesis and properties of chlorinated enzymatic hydrolysis lignin (EHL) were reported in this article.The influences of some factors on the yield and the chlorine content were investigated,including the mass ratio of lignin and water,ultraviolet,chlorination temperature and the dosage of Cl_2.The results showed that the chlorinated efficiency of EHL was high under the condition that the temperature was 25℃ and without the irradiation of ultraviolet,the chlorination level could be controlled by the dosage of Cl_2 and the chlorine content was increasing with the dosage of Cl_2,the highest chlorine content was 29.8%.The structure of copolymer was characterized by FT-IR,and compared with EHL.The C-Cl absorbance peak appeared about 680 cm~(-1) in IR spectra of chlorinated lignin,which indicated that the hydrogen of phenyl rings were replaced by Cl_2.Based on the TG graph,the heat-resistant of chlorinated enzymatic hydrolysis lignin Was worse than that of EHL.Molecular polarity of lignin Was improved by chlorination.Chlorinated EHL could be used as a compatibilizer between lignin and polar polymers.
