CsCl-PEG400-H2O三元体系在15,25和35℃时的等温溶解度、密度及折光率研究

采用半微量相平衡测定装置和高精度密度-折光率测定仪,精确测定了CsCl-PEG 400-H2O三元体系在15,25和35℃3个温度下不同组分百分比溶液的折光率和密度数据,通过关联密度和折光率数据获得了CsCl在上述温度下的等温溶解度.对饱和体系的溶解度研究表明:在同一温度下CsCl的溶解度随聚乙二醇质量分数的增加而减小;在不同温度下CsCl的溶解度随温度的升高而增大.采用经验方程lnS=A1+A2ω2+A3ω2(2)+A4ω2(3)对饱和体系的溶解度进行了关联,效果较好.对不饱和体系的研究表明:当盐含量一定时,随着醇水比例的增加,体系的密度不断增大,折光率也随盐含量增加而增大;当醇水质量比一定时,体系的密度和折光率随盐含量的增加而增大,对不饱和体系的密度和折光率用经验方程Y=(A0+A1ω2+A2ω1+A3ω1ω2+A4ω2ω1(2))×exp[A5(ω1/ω3)+A6(ω1/ω3)2]进行拟合,拟合效果较好,同时给出了体系的盐析率曲线.本研究不仅为溶液化学提供了基础数据,也为混合溶液中盐和醇的分离纯化提供一种新的方法和思路,对CsCl进一步的应用、开发和研究具有一定的参考价值.     

双水相提取糖化酶的研究

利用PEG/(NH4)2SO4双水相系统从粗酶液中提取糖化酶。研究了PEG、(NH42)SO4、NaCl溶液浓度对糖化酶分配系数、回收率以及分相时间的影响,确定了提取糖化酶的最佳条件,即PEG溶液浓度为24%,(NH42)SO4溶液浓度为20%时,分配系数最小为0.0120,糖化酶回收率最高为98.81%。     

无溶剂条件下微波辅助合成硫氰酸酯类化合物

芳基硫氰酸酯是重要的有机合成中间体,得到越来越广泛的应用。文章研究了无溶剂条件下微波辅助合成的方法,用此方法合成了一系列的芳基硫氰酸酯。反应在几分钟内就能完成,并且收率大多在80%以上。该方法操作简单,反应时间短,产率高,环境友好,符合绿色化学的发展要求。     

PET共聚酯的热性能及其纤维的力学性能

直接酯化法合成了一系列聚对苯二甲酸乙二酯(PET)-间苯二甲酸双羟乙酯磺酸钠(SIPE)-聚乙二醇(PEG)共聚酯,以差示扫描量热分析法(DSC)研究了这些共聚酯及纯PET的熔融和结晶过程,并利用万能材料测试仪研究了纤维的力学性能。试验结果表明:加入SIPE和PEG后,共聚酯熔点(Tm)、玻璃化转变温度(T)g降低;随着PEG相对分子质量的增大,PET共聚酯的Tg、冷结晶温度(Tc)c、Tm、结晶温度降低(T)c,纤维的断裂强度和初始模量下降,断裂伸长率增加。     

双水相萃取废液中成相物质聚乙二醇的回收利用

研究了双水相萃取废液中聚乙二醇的回收利用,旨在降低生产成本,减少COD排放,推动双水相萃取技术的工业应用进程。以聚乙二醇-硫酸铵[PEG-（NH4）2SO4]组成的双水相体系废液为原料,采用脱色、浓缩、洗涤除去杂质的工艺技术路线,确定了从双水相废液中回收成相聚合物PEG的最佳工艺（：1）利用H2O2法脱色,最佳脱色条件：H2O2浓度为6%,脱色温度为60℃,脱色时间为4 h,体系pH值为9.0,脱色率达到85%以上（;2）采取盐析法浓缩,最佳电解质种类为Na2SO4,最佳加入量为每10 mL废液3.0 g Na2SO4,此时PEG浓缩比为3.45,PEG损失率为0.31%。按照药用级PEG产品质量标准,对干燥后的回收物进行质量检测。结果表明：回收的PEG产品外观呈浅黄色蜡状,电导率为10.8μs/cm,凝固点为37～40℃,pH值（5%水溶液）为6.33,较纯品PEG无明显差异。     

Optimisation of eco-friendly binary binder system for powder injection moulding

Abstract

In recent years, many efforts have been made to obtain more environmentally acceptable powder injection moulding processes. In this sense, the purpose of this study is to optimise an eco-binder based on polyethylene glycol (PEG) as a water soluble component and cellulose acetate butyrate (CAB) as a natural backbone polymer derived from cellulose for powder injection moulding of zirconium silicate powders until a solvent debinding stage. Four different feedstocks have been investigated. As well as, a volume fraction of PEG and CAB 70/30 (vol.-%) and a solid loading of 57·5 (vol.-%) were maintained, molecular weights of polymers were combined in order to minimize distortion during binder solvent extraction. Water solvent debinding was carried out at three temperatures stepwise during 5 h. As a result, efficient removal of the PEG as well as free defects samples were obtained after solvent debinding for binder systems based on low molecular weight of PEG.     

PFG-NMR self-diffusion in casein dispersions: Effects of probe size and protein aggregate size

The self-diffusion coefficients of different molecular weight PEGs (Polyethylene glycol) and casein particles were measured, using a pulsed-gradient nuclear magnetic resonance technique (PFG-NMR), in native phosphocaseinate (NPC) and sodium caseinate (SC) dispersions where caseins are not structured into micelles. The dependence of the PEG self-diffusion coefficient on the PEG size, casein concentration, the size and the mobility of casein obstacle particles are reported. Wide differences in the PEG diffusion coefficients were found according to the casein particle structure. The greatest reduction in diffusion coefficients was found in sodium caseinate suspensions. Moreover, sodium caseinate aggregates were found to diffuse more slowly than casein micelles for casein concentrations >9 g/100 g H₂O. Experimental PEG and casein diffusion findings were analyzed using two appropriate diffusion models: the Rouse model and the Speedy model, respectively. According to the Speedy model, caseins behave as hard spheres below the close packing limit (10 g/100 g H₂O for SC (Farrer & Lips, 1999) and 15 g/100 g H₂O for NPC (Bouchoux et al., 2009)) and as soft particles above this limit. Our results provided a consistent picture of the effects of diffusant mass, the dynamics of the host material and of the importance of the casein structure in determining the diffusion behavior of probes in these systems.     

湿法纺PLA/PEG复合长丝的结构与性能研究

文章以六氟异丙醇（HFIP）为溶剂,通过湿法纺丝制备PLA/PEG（质量比2∶98）复合长丝,采用电子显微镜观察复合长丝的形貌、用IR测定其微细结构;并对其力学性能进行测试。     

酸性离子液体(PEG1000-DAIL)催化合成6-烷氧基嘌呤化合物

以6-氯嘌呤衍生物为原料,使用PEG1000-DAIL为催化剂,在相应的醇溶剂中回流反应合成了一系列6-烷氧基嘌呤衍生物。聚乙二醇酸性双子离子液体(PEG1000-DAIL)作为催化剂具有优良的催化性能,反应条件温和,多次重复使用能保持很高的催化活性,损失量小,避免了资源的浪费。