共查询到20条相似文献,搜索用时 46 毫秒
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采用红外光谱跟踪分析用于丙烯聚合的MgCl2负载型催化剂的制备过程,阐明了制备过程中的主要化学变化。认为载体MgCl2含水对催化剂负载过程及钛含量有极大的影响。MgCl2的溶解是一经过中间过渡态的醇化过程,邻苯二甲酸酐不仅会与部分醇反应生成酯,而且还与水反应生成酸,起了除水的作用;其中酯在TiCl4负载中作为内酯,酸容量与-Mg-(OR)作用生成Mg(OH)2或Mg(OH)Cl;在负载过程中,Ti 相似文献
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聚苯乙烯(PS)是匀相催化剂多相化研究中常用的高分子载体,但通常涉及的均是交联聚苯乙烯(CPS)。本文制备了不同链长的直链聚苯乙烯(LPS)负载钯催化剂(LPSN-Pd);将其与相应的交联聚苯乙烯负载的钯催化剂(CPSN-Pd)对比,考察了这类催化剂对不饱和烃类加氢反应的活性、选择性以及起始载体链长对催化刑加氢性能的影响。 相似文献
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负载型催化剂的浸渍制备涉及到大量的经验规律,这就使得其条件参数的选择成为一个比较复杂的不确定性问题,借助于专家系统方法可望解决此类问题。本文在单组分浸渍系统的基础上,形成了一个多组分浸渍制备的专家系统原型IACES—Ⅱ,该系统由Prolog和Fortran语言编码,具备处理数值和非数值信息的功能。在IACES-Ⅱ系统中,采用集总的方法将浸渍参数的优化选择问题分解为若干子问题,并采用“规则架+规则体”这种基本结构来形成知识库的整体结构。然后,通过基于目标的推理给出如下浸渍参数:(1)吸附形式,(2)离子形式,(3)浸渍体系稳定的pH值范围,(4)竞争吸附剂,(5)操作参数(初始浓度,载体用量和溶液体积之比,浸渍时间等)。 相似文献
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双浸渍法制备负载型钯催化剂 总被引:9,自引:0,他引:9
益气回阳注射液由人参、制附子、枳实等制成。在大鼠肠系膜上动脉半塞性休克时,益气回阳注射液能使平均动脉压及脉压差增大,提高全血及心、肝、肾组织的GSH-Px活性。 相似文献
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Ziegler-Natta催化剂催化乙烯气相聚合 总被引:1,自引:0,他引:1
本文综述了乙烯气相聚合催化剂研究状况,列举了一些制备气相聚合催化剂有代表性的方法。同时对预聚合的作用及气相聚合与淤浆聚合表观动力学行为的不同性也作了简要介绍。 相似文献
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均相催化剂产生于50年代末期,但由于活性很低而末引起重视。80年代初,由于发现MAO具有良好的助催化能力而使均相催化剂得到了很大发展,涌现了多种催化体系,广泛地使α-烯烃及其衍生物立体选择性聚合,开辟了配位聚合研究的新领域,本文对均相催化剂的产生,发展及现状作了综述评述。 相似文献
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采用一种含二酯类内给电子体的氯化镁负载Ziegler-Natta催化剂和三异丁基铝(TIBA)助催化剂,在同一反应器中经常压丙烯预聚和加压下的乙烯与少量丙烯淤浆共聚合两步反应,高效地合成了外径为0.4~3 mm的中空球形聚乙烯粒子,其球形粒子的外表面和内部空腔的内表面均较为平滑,壳层厚度均匀.聚合反应的催化剂效率最高达到7.49 kg/g Ti·h·MPa(6.5 kg PE/g Cat.).研究了助催化剂种类、助催化剂浓度(Al/Ti摩尔比)和乙烯聚合阶段的丙烯共单体添加量对聚合物粒子形貌的影响,发现采用三乙基铝(TEA)或TEA/TIBA混合物为助催化剂时,虽然聚合物粒子仍呈中空球形形态,但其内部空腔的形状极不规则.以TIBA为助催化剂时,在一定范围内提高Al/Ti比和丙烯添加量均可显著提高催化效率,聚合反应动力学曲线由衰减型变为增长型,但聚合物粒子的中空形貌得以保持.对比丙烯预聚产物的粒子形貌发现,助催化剂含TEA时所得预聚物粒子结构较松散,内部有较多孔隙和裂纹,而改为TIBA后预聚物粒子内部相对致密. 相似文献
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综述了丙烯聚合用Ziegler—Natta催化剂内、外给电子体的最新进展:内给电子体主要包括1,3-二醚、二醇酯、琥珀酸酯和1-醚-3-酮化合物.外给电子体主要包括复合外给电子体以及含氮硅烷化合物。消费者对聚丙烯材料的清洁性要求越来越高,因此聚丙烯催化剂内、外给电子供体的发展不仅要求能够制备出更高性能的聚丙烯,同时还要... 相似文献
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钛系Ziegler—Natta催化剂下的丙烯α—烯烃的共聚合 总被引:3,自引:0,他引:3
研究了TiCl4/MgCl2-三乙基铝高效载体催化体系下的丙烯/癸烯-1共聚及δ-TiCl3-氯二乙基铝催化体上的丙烯/辛烯-1共聚合的基本反应规律,考察了铝钛比、温度、共聚单浓度等对共聚合的影响,对比了两种催化体系的不同,利用非均相Ziegler-Nattz催化体系下共聚合的非稳态扩散动力学的观点,解释了观察到的共聚合催化效率增加,共聚物粒子增大等实验现象。 相似文献
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Mikhail A. Matsko Ludmila G. Echevskaya Vladimir A. Zakharov Marina I. Nikolaeva Tatyana B. Mikenas Marina P. Vanina 《Macromolecular Symposia》2009,282(1):157-166
Summary: Heterogeneity of active centers (AC) of titanium-magnesium catalysts (TMC) and vanadium-magnesium catalyst (VMC) in ethylene-hexene-1 copolymerization has been studied on the base of data of polymer molecular weight distribution (MWD) deconvolution technique and copolymer fractionation onto narrow fractions. It was found that 3 and 4 Flory components (groups of active centers) are required to describe experimental MWD curves of copolymers produced over TMC with different Ti content. In the case of VMC MWD of homopolymer and copolymer are characterized by set of 5 Flory components (5 groups of AC). Different character of inter-relationship between MW and short chain branching (SCB) was found for ethylene-hexene-1 copolymers produced over different catalysts: heterogeneous type in the case of TMC and more uniform for copolymer prepared over VMC. The content of Ti affects on the slope of that profile in copolymers produced over TMC. The results indicated that TMC and VMC are different greatly on the heterogeneity of active centers to the formation of polymers with different molecular weights and to formation of copolymers with different inter-relationship between MW and short chain branching. TMC produces polymers with more narrow MWD but it contains highly heterogeneous centers regarding comonomer reactivity ratios. VMC produces polymers with broad and bimodal MWD but it contains more homogeneous centers regarding comonomer reactivity ratios. 相似文献
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A series of(Si_O2/MgO/ID/MgCl_2)·TiClx Ziegler-Natta catalysts for propylene polymerization has been prepared with a new method. These catalysts were synthesized using soluble Mg-compounds as the Mg-source and the preparation progress was relatively simple. The catalyst could copy the spherical shape of the carrier very well. The propylene polymerization results showed that the catalyst revealed the best activity with 9,9-di(methoxymethyl)fluorene(BMMF) as internal donor at 50 °C with the optimal molar ratio Al/Ti = 5, which was much lower than what the industrial polypropylene catalyst used(at least molar ratio Al/Ti = 100), resulting in great cost saving. Additionally, the polymerization kinetics of the catalyst exhibited very stable property after achieving a relatively high value. These catalysts possessed rather high activity and good hydrogen response. The isotactic index(Ⅱ.) value of the PP products could be higher than 98% in the presence of both internal and external electron donors. Moreover, temperature rising elution fractionation method was used to understand the influence of donors and H2 on the properties of the PP products. 相似文献