聚合物纳米晶体的弹性应变能行为

Alexander I. Slutsker , Yuri I. Polikarpov , Dmitry D. Karov
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引用次数: 2

摘要

本文用x射线衍射法和拉曼光谱法测量了聚乙烯纳米晶体链分子中骨架原子间键的轴向和轮廓长度的变化。在测量过程中,样品受到拉伸和加热(机械和热作用)。分析了测得的力和温度的依赖关系,并由此推导出聚合物纳米晶体应变的计算描述。这样就得到了热作用的原始结果。测定了张力聚合物晶体中与骨架键拉伸和链分子弯曲相关的势能组分。在机械和热作用下,这些成分的比例有明显的区别。
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Elastic strain energy behavior in the polymer nanocrystals

In the paper, the changes in axial and contour lengths of skeletal interatomic bonds in the chain molecules of polyethylene nanocrystals have been measured using X-ray diffractometry and Raman spectrometry. In the course of the measurements the samples were subjected to stretching and heating (mechanical and thermal actions). The measured force and temperature dependences were analyzed and the calculated description of the polymer nanocrystal strain was inferred from them. In so doing the original results were obtained for the thermal action. The potential energy components related to both the skeletal bond stretching and the chain molecule bending were determined for the strained polymer crystal. The sharp distinction between the ratios of these components for the object under mechanical and thermal actions was found.

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