Isothermal Crystallization Kinetics and Morphological Features of High Cis Polybutadiene Produced with Rare Earth Catalyst

Yang Chang-feng; Zhu Han; Wu Yi-xian

doi:10.11777/j.issn1000-3304.2016.16119

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Isothermal Crystallization Kinetics and Morphological Features of High Cis Polybutadiene Produced with Rare Earth Catalyst

Research Article | 更新时间：2021-03-22

- Isothermal Crystallization Kinetics and Morphological Features of High Cis Polybutadiene Produced with Rare Earth Catalyst
- Acta Polymerica Sinica Issue 12, Pages: 1743-1751(2016)
- 作者机构：
  
  北京化工大学化工资源有效利用国家重点实验室,北京,100029
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2016.16119
  CLC：
- Published：20 December 2016，
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Yang Chang-feng, Zhu Han, Wu Yi-xian. Isothermal Crystallization Kinetics and Morphological Features of High Cis Polybutadiene Produced with Rare Earth Catalyst. [J]. Acta Polymerica Sinica (12):1743-1751(2016)
DOI：

Yang Chang-feng, Zhu Han, Wu Yi-xian. Isothermal Crystallization Kinetics and Morphological Features of High Cis Polybutadiene Produced with Rare Earth Catalyst. [J]. Acta Polymerica Sinica (12):1743-1751(2016) DOI： 10.11777/j.issn1000-3304.2016.16119.

摘要

通过稀土催化丁二烯配位聚合制备了一系列不同分子量、分子量分布及顺-1，4结构含量的稀土高顺式聚丁二烯（cis-PB），采用扫描示差量热仪法（DSC）研究了cis-PB在-18~-27℃范围内等温结晶过程，采用配有在线冷热台的偏光显微镜（POM）观测结晶形态.结果表明，在cis-PB等温结晶过程中，Avrami指数（n）在2.0~3.0之间，呈现三维球晶的生长方式，与微观结构参数及结晶温度无关，但其球晶尺寸与微观结构有关，并随着顺-1，4结构含量升高而增大；当顺-1，4结构含量小于98.4%时，半结晶期（t1/2）随其含量增加而缩短，结晶速率加快，但若其含量继续增加至99.0%左右时，结晶速率反而有所降低；若同时提高聚合物分子量及顺-1，4结构含量或者在分子量及顺-1，4结构含量相近的前提下使分子量分布变窄，均有利于提高结晶速率；随顺-1，4结构含量增加，过冷度（ΔT）增加，结晶驱动力增大；结晶活化能（ΔE）为负值，降低结晶温度有利于提高结晶速率，当顺-1，4结构含量大于98.2%时，ΔE值接近（~-137 kJ/mol），结晶速率对温度的依赖程度相近.

Abstract

High cis polybutadienes (cis-PB) with different molecular weights

molecular weight distributions (MWDs) and microstructures have been prepared via coordination polymerization of butadiene with rare earth catalyst system.The commercial cis-PB products (A9712

C9520 and C9634) were also selected for comparison.Isothermal crystallization kinetics and crystal morphology of cis-PB samples were investigated at various temperatures ranging from -18℃ to -27℃ by differential scanning calorimetry (DSC) and polarized optical microscopy (POM) equipped with in situ heating and cooling device

respectively.The Avrami exponent (n) for various cis-PB samples was determined to be in the range of 2.0~3.0

which indicated that the isothermal crystallization of all the cis-PB samples proceeded via three-dimensional spherulite growth.The spherulites with different sizes and shapes could be observed for the cis-PB samples with different molecular weights

MWDs and cis-1

4 contents.The size of spherulites increased with increasing cis-1

4 contents of cis-PB samples under the same crystallization conditions.The half-crystallization time (t1/2) decreased and the crystallization rate increased with an increase in cis-1

4 content of cis-PB samples by keeping the other conditions almost the same when the cis-1

4 content of cis-PB samples was lower than 98.4%.However

the crystallization rate decreased with further increasing the cis-1

4 content of cis-PB samples from 98.4% to around 99.0%.The crystallization could be greatly accelerated with simultaneous increases in molecular weight and cis-1

4 content of cis-PB samples by keeping the polydispersity almost the same.The crystallization could also be accelerated with narrowing molecular weight distribution of cis-PB samples by keeping the molecular weight and cis-1

4 content almost the same for the cis-PB samples.It was found that the degree of undercooling (ΔT)

a driving force for crystallization

increased with increasing the cis-1

4 content of cis-PB samples.The crystallization activation energy (ΔE) was determined to be in the range of -115~-140 kJ/mol.The negative values suggest that the crystallization could be accelerated with decreasing temperature.The ΔE values decreased from -115 kJ/mol to -130 kJ/mol with increasing the cis-1

4 content of cis-PB samples from 95.2% to 98.2%

indicating that the crystallization rate could be increased more greatly with decreasing temperature for the cis-PB samples with higher cis-1

4 contents when cis-1

4 contents were lower than 98.2%.Moreover

the ΔE values kept at around -137 kJ/mol when the cis-1

4 content of cis-PB samples was further increased from 98.2% to 99.0%

indicating that the dependence of crystallization rate on temperature was similar for the cis-PB samples with more than 98.2% of cis-1

4 contents.

关键词

高顺式聚丁二烯顺式含量等温结晶动力学结晶活化能平衡熔点

Keywords

High cis polybutadieneCis-1 4 contentIsothermal crystallization kineticsCrystallization activation energyEquilibrium melting point *

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Shandong Provincial Key Laboratory of Olefin Catalysis and Polymerization, Key Laboratory of Rubber-Plastics (Ministry of Education), Qingdao University of Science and Technology

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