EFFECT OF OXYGENATED COMPOUNDS ON 1,3-BUTADIENE POLYMERIZATIONS PERFORMED WITH NEODYMIUM VERSATATE. PART I: ALCOHOLS, ALDEHYDES, KETONES, AND WATER

IF 1.2 4区工程技术 Q4 POLYMER SCIENCE Rubber Chemistry and Technology Pub Date : 2021-09-27 DOI:10.5254/rct.21.78979

L. Dutra, M. Vasconcelos, Anderson Cazumbá, Maria Clara Leite Scaldaferri, Márcio Henrique Dos Santos Andrade, J. Pinto

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Abstract

1,3-butadiene (1,3-BD) is a building block produced mainly as a byproduct of the ethylene steam cracking process. However, due to the growing interest in sustainable technologies, there is also growing interest in manufacturing 1,3-BD from ethanol. For this reason, taking into account that the ethanol-derived 1,3-BD can contain oxygenated contaminants that are difficult to remove, the present manuscript investigates for the first time how the presence of low concentrations of some oxygenates (acetaldehyde, crotonaldehyde, 3-hydroxybutyraldehyde, acetone, water, ethanol, 1,3-butanodiol, 3-buten2-ol, crotyl alcohol, and 1-butanol) in the 1,3-BD monomer can affect polymerization reactions performed with the neodymium versatate catalyst and modify the characteristics of the obtained polybutadiene products. It is shown that the presence of oxygenated compounds can cause inhibitory effects on the course of the polymerization and modify the molar mass distributions and flow properties of the final products, although all analyzed samples presented the characteristic high-cis character of polybutadienes produced with the neodymium versatate catalyst.

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含氧化合物对叔酸钕催化1,3-丁二烯聚合反应的影响。第一部分：醇、醛、酮和水

1,3-丁二烯(1,3- bd)主要是乙烯蒸汽裂解过程的副产物。然而，由于对可持续技术的兴趣日益浓厚，从乙醇中制造1,3-二苯醚的兴趣也越来越大。因此，考虑到乙醇衍生的1,3- bd可能含有难以去除的含氧污染物，本论文首次研究了低浓度的一些含氧物(乙醛、巴豆醛、3-羟基丁醛、丙酮、水、乙醇、1,3-丁二醇、3-丁烯2醇、丁醇、和1-丁醇)在1,3- bd单体中的掺入会影响用多功能钕催化剂进行的聚合反应，并改变所得聚丁二烯产物的特性。结果表明，含氧化合物的存在会对聚合过程产生抑制作用，并改变最终产物的摩尔质量分布和流动性能，尽管所有分析样品都呈现出用通用钕催化剂制备的聚丁二烯的高顺式特征。

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来源期刊

Rubber Chemistry and Technology 工程技术-高分子科学

CiteScore

3.50

自引率

20.00%

发文量

审稿时长

3.6 months

期刊介绍： The scope of RC&T covers: -Chemistry and Properties- Mechanics- Materials Science- Nanocomposites- Biotechnology- Rubber Recycling- Green Technology- Characterization and Simulation. Published continuously since 1928, the journal provides the deepest archive of published research in the field. Rubber Chemistry & Technology is read by scientists and engineers in academia, industry and government.