Polymer Morphology 2016
DOI: 10.1002/9781118892756.ch18
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Polymer Morphology and Deformation Behavior

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“…The amorphous and crystalline orientation parameters were utilized to estimate the degree of orientation of the amorphous and crystalline components, as well as the formation of fibrils. [53,54] The deformation configuration relevant for measuring the degree of stiffness and aspect ratio of fibrils during the drawing process is assumed to be the degree of orientation of the polymer's amorphous-crystallite phase. The orientation parameters were measured using the amorphous and crystalline orientation models at a drawing ratio of 8, where A i = Area of undrawn strands, A f = Area of drawn strands during drawing, as illustrated in Equations ( 1) and ( 2).…”
Section: Theoretical Study Of Orientation Parameter During Drawing Fo...mentioning
confidence: 99%
“…The amorphous and crystalline orientation parameters were utilized to estimate the degree of orientation of the amorphous and crystalline components, as well as the formation of fibrils. [53,54] The deformation configuration relevant for measuring the degree of stiffness and aspect ratio of fibrils during the drawing process is assumed to be the degree of orientation of the polymer's amorphous-crystallite phase. The orientation parameters were measured using the amorphous and crystalline orientation models at a drawing ratio of 8, where A i = Area of undrawn strands, A f = Area of drawn strands during drawing, as illustrated in Equations ( 1) and ( 2).…”
Section: Theoretical Study Of Orientation Parameter During Drawing Fo...mentioning
confidence: 99%