Abstract
Abstract Viscoelastic measurements were made on polyethylene single crystals prepared from dilute solution under isothermal crystallization conditions and on annealed crystals of the same samples. As the long period of the isothermally crystallized samples increases, both the absorption temperature and the intensity of the crystalline absorption (αc) also increase. On the other hand, thickening of single crystals by annealing causes the intensity of the absorption to decrease, whereas the absorption temperature shifts to higher values. These findings are interpreted in terms of the introduction of defect regions into the crystalline phase by annealing. The socalled crystalline absorption is further classified into four separate mechanisms. A peak characteristic of the annealed samples (αc) is found at the lowest temperature of the crystalline dispersion region. A second peak (αf) is found in both the isothermally crystallized samples and the annealed ones. A third peak (αm) appears to consist of three sep...
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