Using the most advanced production technology, the use of high efficiency and high quality raw materials reaction polymerization.
采用目前最为先进的生产工艺,使用高效度的优质原料反应聚合而成。
Depending upon reaction conditions, the product may be a polyketone formed by addition polymerization of the ketene double bond.
随着反应条件的不同,产物可以是由烯酮的双键加成聚合得到的聚酮。
The influence of reaction temperature, initiator level. reaction time and rubber level on the graft polymerization was investigated.
考查了反应温度、引发剂用量、反应时间和胶用量对接枝共聚反应的影响。
Living Polymerization by radical mechanism is a new type of reaction which has been explored recently. In this paper, the developments of these reactions are reviewed.
自由基活性聚合是人们在们在近年来探索的一类新的聚合反应。本文简要地综述了这类反应的进展。
The effects of reaction conditions were studied, including the kind of solvent, polymerization temperature, the concentration of template and initiator, rotational speed and pre-polymerization time.
考察了聚合反应条件,如溶剂种类、聚合温度、模板浓度、引发剂用量、转速、预聚合时间等对分子印迹聚合物微球特性的影响。
Let us consider the most simple reaction scheme for the radical propagated polymerization of a single monomer.
让我们考虑一种单体聚合中自由基增长的最简单的反应图式。
The optimum reaction condition is finalized and the influence of amount of emulsifier and fluoro monomers on emulsion polymerization and the product is discussed.
确定了最佳反应条件,并对乳化剂用量和含氟单体的用量对乳液聚合及其产品的影响进行了研究。
The infrared spectrum analysis showed that the polymerization reaction was complete, and the polymer was a kind of thermoplastic material without branched chains.
红外光谱分析表明聚合较为完全,聚合物不存在支链结构,为热塑性材料。
Poly (N-vinylpyrrolidone) with carboxylic end groups and amino end groups (PNVP-NH2) were prepared by the chain transfer reaction in free radical polymerization.
利用普通自由基聚合中的链转移反应,分别制备了以羧基为端基的聚和以胺基为端基的聚(PNVP - NH2)。
Under the protection of nitrogen the reaction system can induce polymerization of acrylamide.
在氮气保护下,反应能引发丙烯酰胺的聚合。
Possibility reaction mechanism was proposed, which could be used to explain the spontaneous termination reaction in anionic polymerization of butadiene in the presence of polar additives.
对这些破坏活性中心的反应所提出来的反应机理,可以用于解释丁二烯阴离子聚合中的自发终止现象。
Results 5f decreased the Absorption values of the reaction system. and markedly inhibited not only tubulin polymerization but also tubulin depolymerization.
结果5f能抑制反应体系吸光值升高,提示它对微管蛋白聚合具有抑制作用并能抑制其解聚。
Under the protection of nitrogen the reaction system does not induce polymerization of acrylamide indicating no generation of free radicals.
在氮气保护下,反应不能引发丙烯酰胺聚合,说明在反应中没有自由基产生。
The emulsifier content and feed rate affect latex swelling and shell polymerization by the making a change of latex number and total reaction rate coefficient respectively.
乳化剂量和加料速率分别通过影响胶粒数和总体反应速率系数而对胶粒溶胀和壳层聚合反应产生影响。
The emulsion polymerization also was influenced by the dosage of emulsifier and initiator, reaction temperature and reaction time and agitating speed.
乳化剂、引发剂用量及反应温度、反应时间和搅拌速度对乳液聚合反应有重要影响。
The effects of monomer concentration, reaction temperature, initiator dosage on polymerization rate and intrinsic viscosity of product were investigated.
探讨了单体浓度、反应温度、引发剂用量等因素对聚合反应速率和产物特性黏数的影响。
Under the protection of nitrogen, the reaction system does not induce polymerization of acrylamide, indicating the generation of no free radicals.
在氮气保护下,反应不能引发丙烯酰胺聚合,说明在反应中没有自由基产生。
In this paper, recent applications of PEG macroinitiators in polymerization reaction are reviewed.
综述了近年来聚乙二醇类大分子引发剂在聚合反应中的应用。
A polymerization accident happened when acetaldehyde was loading. The cause of polymerization reaction was analyzed, and prevention measures were put forward, in order to guarantee loading safety.
根据一起乙醛装车时发生的聚合事故,分析乙醛发生聚合反应的原因,提出预防措施,确保乙醛装车的安全。
This article has discussed the influence of ratio of monomers, emulsifier mixing ratio and initiators on the polymerization reaction and the film properties.
探讨了单体配比、乳化剂配比、引发剂等对聚合反应以及涂膜性能的影响。
The reaction rate constant and activation energy of soybean oil thermal polymerization reaction were determined by analysis of the change of viscosity.
以大豆油为原料,根据热聚合反应过程中黏度的变化确定反应的速率常数及热聚合反应的活化能。
The effects of polymerization temperature and reaction time on grafting ratio were studied.
考察了聚合反应时间及反应温度对接枝率的影响。
Free radical polymerization plays an important role in modern polymerization reaction engineering, and in all kinds of free radical polymerization, binary copolymerization is particularly important.
自由基聚合在聚合反应工程中占有相当重要的地位,而在自由基聚合中,自由基二元共聚尤为重要。
The results of IR and DSC indicated that ITA took part in shell layer's polymerization reaction successfully.
IR和DSC分析的结果表明,衣康酸(ITA)成功参与了壳层聚合反应。
Polymerization conditions, including molar ratio of aniline to APS, temperature of the reaction system and reaction time, were discussed.
讨论了单体与氧化剂的比例、反应体系的温度以及聚合反应的时间对聚合产物的影响。
It was proved that chlorogenic acid and caffeic acid were the main substrates in the process of enzymatic oxidation which ran the reaction of polymerization.
说明在酶促氧化过程中,绿原酸和咖啡酸是主要进行聚合反应的底物。
It was proved that chlorogenic acid and caffeic acid were the main substrates in the process of enzymatic oxidation which ran the reaction of polymerization.
说明在酶促氧化过程中,绿原酸和咖啡酸是主要进行聚合反应的底物。
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