Structure and mechanical properties of biobased polyamide 11 specimens subjected to different heat treatments

IF 2.3 4区 化学 Q3 POLYMER SCIENCE
Toyoshi Yoshida, Mei Touji, Hideaki Takagi, Nobutaka Shimizu, Noriyuki Igarashi, Shinichi Sakurai, Makoto Uchida, Yoshihisa Kaneko
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Abstract

The macroscopic mechanical properties of polyamides depend on their microscopic structural properties, such as the crystalline phase, lamellar thickness, and long period, which change depending on the heat treatment conditions. In this study, the relationships between the macroscopic mechanical properties and lamellar structures of polyamide 11 obtained from different heat treatments were investigated. Heat treatments include quench, isothermal, and quench–annealing conditions. Wide-angle X-ray scattering measurements indicated that different crystalline phases formed depending on the heat treatment conditions. Polarized optical microscopy and differential scanning calorimetry revealed spherulite and crystal morphologies that were not spherulite. Small-angle X-ray scattering revealed that the lamellar thickness and long period increased with the heat treatment temperature. With increasing the long period of lamellae, the number of stress transmitters, which are stress transfer factors (entanglements, loop chains, etc.) between lamellae, increases. The lamellar thickness and long period of polyamide 11 were ~1.5 times greater than that of polyamide 6 under similar heat treatment. In uniaxial tensile tests, polyamide 6 specimens heat-treated at high temperatures fractured and did not elongate. Polyamide 11 elongated without fracture. The thick lamellar and long-period structure of polyamide 11 obtained from heat treatments in this study might explain its excellent elongation until the late stage of deformation. The relationships between the macroscopic mechanical properties and lamellar structures of polyamide 11 obtained from different heat treatments were investigated. From the tensile tests, the maximum stress and strain at necking increase with the heat treatment temperature. WAXS measurements indicated that different crystalline phases formed depending on the heat treatment conditions. SAXS revealed that the lamellar thickness and long period increased with the heat treatment temperature. Based on these results, we elucidated that the macroscopic mechanical properties correlate with the lamellar thickness and long period.

Abstract Image

Abstract Image

经不同热处理的生物基聚酰胺 11 试样的结构和机械性能
聚酰胺的宏观机械特性取决于其微观结构特性,例如结晶相、薄片厚度和长周期,而这些特性会随着热处理条件的不同而发生变化。本研究探讨了不同热处理条件下聚酰胺 11 的宏观机械性能与薄片结构之间的关系。热处理包括淬火、等温和淬火-退火条件。广角 X 射线散射测量结果表明,不同的热处理条件会形成不同的结晶相。偏光光学显微镜和差示扫描量热法显示了球晶和非球晶的晶体形态。小角 X 射线散射显示,片层厚度和长周期随着热处理温度的升高而增加。随着薄片长周期的增加,薄片之间的应力传递因子(缠结、环链等)数量也随之增加。在类似的热处理条件下,聚酰胺 11 的薄片厚度和长周期是聚酰胺 6 的 1.5 倍。在单轴拉伸试验中,高温热处理的聚酰胺 6 试样会断裂,但不会拉长。聚酰胺 11 则拉长而没有断裂。本研究中通过热处理获得的聚酰胺 11 厚层和长周期结构可能是其直到变形后期都具有出色伸长率的原因。
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来源期刊
Polymer Journal
Polymer Journal 化学-高分子科学
CiteScore
5.60
自引率
7.10%
发文量
131
审稿时长
2.5 months
期刊介绍: Polymer Journal promotes research from all aspects of polymer science from anywhere in the world and aims to provide an integrated platform for scientific communication that assists the advancement of polymer science and related fields. The journal publishes Original Articles, Notes, Short Communications and Reviews. Subject areas and topics of particular interest within the journal''s scope include, but are not limited to, those listed below: Polymer synthesis and reactions Polymer structures Physical properties of polymers Polymer surface and interfaces Functional polymers Supramolecular polymers Self-assembled materials Biopolymers and bio-related polymer materials Polymer engineering.
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