Morphology and Mechanical Properties of Copolymer Ethylene

Lin Ma, Yuezhen Bin, Yuko Sakai, Qun Chen, Hiromichi Kurosu, and Masaru Matsuo*. Department of Textile and Apparel Science, Faculty of Human Life and ...
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Macromolecules 2001, 34, 4802-4814

Morphology and Mechanical Properties of Copolymer Ethylene-Methyl Methacrylate Films as a Function of Temperature Estimated by Polarized Light Scattering, X-ray, and 13C NMR Lin Ma, Yuezhen Bin, Yuko Sakai, Qun Chen,† Hiromichi Kurosu, and Masaru Matsuo* Department of Textile and Apparel Science, Faculty of Human Life and Environment Nara Women’s University, Nara 630-8263, Japan Received December 12, 2000; Revised Manuscript Received April 9, 2001 ABSTRACT: The relationship between the morphology and the mechanical properties of copolymer ethylene-methyl methacrylate (EMMA) was estimated as a function of temperature by using polarized light scattering, X-ray diffraction and 13C solid-state NMR. All of these measurements revealed unstable crystallites within the EMMA films having a MMA content >14 mol %, crystallinity less than 10%, and crystal size of about 3 nm. On the other hand, the ethylene sequences in the amorphous phase had an ordered arrangement rather than a random orientation. It is evident that these characteristics are due to the strong repulsion between MMA and ethylene. Namely, MMA side groups suppress the crystallization as an essential property of ethylene sequences; consequently, the difficulty of accelerating the selfarrangement of ethylene sequences as crystallites leads to a local ordered arrangement of long ethylene sequences in the amorphous phase. The maximum draw ratio of the EMMA film reached 10 times at room temperature. A specimen with a draw ratio