Higher-Order Structure and Crystallization Behavior of a Crystalline/Crystalline Polymer Blend Composed of Components with Significantly Different Crystallization Rates

IF 1.3 4区 工程技术 Q3 MECHANICS
Hiroki Takeshita, Yuka Nagata, Norihiko Sakaguchi, Katsuhisa Tokumitsu
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Abstract

Effects of the preexisting crystal lamellar structure on the crystallization behavior of the other component were investigated for the blend of poly(oxymethylene)/poly(L-lactide) (POM/PLLA), using DSC, polarizing optical microscopy, SAXS, and dielectric relaxation measurements. In this system, even at a low POM fraction of 10 wt%, POM crystallized first and formed the crystal lamellar structure due to its significantly faster crystallization rate. PLLA, which crystallizes later, was found to crystallize from the unique confined space between the POM crystal lamellae. Despite the restricted space between the POM crystal lamellae, the crystallization rate of PLLA was improved compared to that of bulk PLLA. Analysis of the nucleation rate and spherulite growth rate showed that while the spherulite growth rate was slightly reduced by the presence of the POM crystal lamellae, the nucleation rate was significantly improved, which resulted in the increase of the overall crystallization rate. Furthermore, the dielectric relaxation measurements suggested that the formation of the POM crystal lamellae suppressed the mobility of the amorphous PLLA molecular chains, which is thought to contribute to the increase in the nucleation rate.
结晶速率显著不同组分组成的结晶/结晶聚合物共混物的高阶结构和结晶行为
采用DSC、偏光显微镜、SAXS和介电弛豫测量,研究了聚甲醛/聚l -丙交酯(POM/PLLA)共混物中预先存在的晶体层状结构对其他组分结晶行为的影响。在该体系中,即使在POM分数为10 wt%的情况下,由于POM的结晶速度明显快于POM, POM也首先结晶并形成晶体片层结构。PLLA结晶较晚,发现它是在POM晶片之间独特的密闭空间中结晶的。尽管POM晶片之间的空间有限,但与块体PLLA相比,PLLA的结晶速率有所提高。对晶核速率和球晶生长速率的分析表明,POM晶片的存在虽然使球晶生长速率略有降低,但使晶核速率明显提高,从而使整体结晶速率提高。此外,介质弛豫测量表明,POM晶片的形成抑制了非晶PLLA分子链的迁移率,这被认为是导致成核速率增加的原因。
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来源期刊
Nihon Reoroji Gakkaishi
Nihon Reoroji Gakkaishi 工程技术-高分子科学
CiteScore
1.50
自引率
61.50%
发文量
47
审稿时长
>12 weeks
期刊介绍: For the communication among the members, the journal of the Society of Rheology Japan, NIHON REOROJI GAKKAISHI (5 issues per year), was established in 1973 and it is the oldest journal on rheology in Asia. The journal contains original and review articles on rheology and related topics, information for all SRJ events, and reports of domestic/overseas meetings. Articles in Japanese as well as in English are considered for publication, not only from the members but also from the researchers outside. Papers from new emerging areas of the field are particularly welcome. The electronic version of the articles is available via the internet with an open access policy.
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