Pronouncedly elevated impact toughness of isotactic polypropylene upon annealing realized by introducing alkyl-terminated hyperbranched polyester

IF 2.4 3区 化学 Q3 POLYMER SCIENCE Iranian Polymer Journal Pub Date : 2024-09-17 DOI:10.1007/s13726-024-01390-x
Jingru Liu, Huiting Chen, Yi Li
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Abstract

The promoted mobility of chain segments in the amorphous region of isotactic polypropylene (iPP) is beneficial to the improvement of its impact toughness. In the present work, two kinds of hyperbranched polyesters with different lengths of alkyl-terminated groups (octadecyl-terminated hyperbranched polyester HBP-C18, and hexyl-terminated hyperbranched polyester HBP-C6) were incorporated into iPP through melt-blending, respectively. Then the blends were annealed at different temperatures. Polarized optical microscopy and dynamic rheology results reveal that HBP-C18 only performs the function of lubricant on iPP. As a consequence, the incorporation of HBP-C18 weakens the impact strength of iPP, and further annealing treatment results in sharp depression of the impact toughness of iPP/HBP-C18 blend. On the contrary, dramatically enhanced impact toughness of iPP could be achieved by the incorporation of HBP-C6 and further annealing treatment. After being annealed at 120 °C for 3 h, the impact strength of iPP/HBP-C6 reaches 16.0 kJ m−2, 119% higher than that of its unannealed counterpart, almost 186% higher than that of annealed iPP, and even elevated by 400% in contrast to that of unannealed iPP. Introducing a small amount of HBP-C6 with dual roles of plasticizer and pore-forming agent as well as further annealing treatment not only promote prominently the mobility of chain segments in the amorphous region of the iPP matrix, but also induce the formation of massive microvoids, giving rise to intense plastic deformation under the impact load condition, and therefore pronouncedly elevated impact toughness of iPP could be obtained. This work could provide a novel and effective strategy for iPP toughening.

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通过引入烷基封端超支化聚酯,退火后异策聚丙烯的冲击韧性明显提高
促进异方根聚丙烯(iPP)无定形区链段的流动性有利于提高其冲击韧性。在本研究中,两种具有不同长度烷基端基的超支化聚酯(十八烷基端基超支化聚酯 HBP-C18 和己基端基超支化聚酯 HBP-C6)分别通过熔融共混的方法加入到 iPP 中。然后在不同温度下对混合物进行退火处理。偏光光学显微镜和动态流变学结果表明,HBP-C18 只对 iPP 起润滑作用。因此,HBP-C18 的加入会削弱 iPP 的冲击强度,进一步退火处理会导致 iPP/HBP-C18 混合物的冲击韧性急剧下降。相反,通过加入 HBP-C6 和进一步退火处理,iPP 的冲击韧性显著增强。在 120 °C 下退火 3 小时后,iPP/HBP-C6 的冲击强度达到 16.0 kJ m-2,比未退火的 iPP 高 119%,比退火的 iPP 高近 186%,甚至比未退火的 iPP 高 400%。引入少量具有增塑剂和孔隙形成剂双重作用的 HBP-C6 并进行进一步退火处理,不仅能显著提高 iPP 基体无定形区链段的流动性,还能诱导形成大量微空洞,在冲击载荷条件下产生强烈的塑性变形,从而显著提高 iPP 的冲击韧性。这项研究为 iPP 的增韧提供了一种新颖而有效的策略。
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来源期刊
Iranian Polymer Journal
Iranian Polymer Journal 化学-高分子科学
CiteScore
4.90
自引率
9.70%
发文量
107
审稿时长
2.8 months
期刊介绍: Iranian Polymer Journal, a monthly peer-reviewed international journal, provides a continuous forum for the dissemination of the original research and latest advances made in science and technology of polymers, covering diverse areas of polymer synthesis, characterization, polymer physics, rubber, plastics and composites, processing and engineering, biopolymers, drug delivery systems and natural polymers to meet specific applications. Also contributions from nano-related fields are regarded especially important for its versatility in modern scientific development.
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