During glass transition, which is displayed only in amorphous polymers, molecules are frozen, and the crystalline portion remains so during the transition. It’s observed at low-temperature, molecules can slowly vibrate but are otherwise generally rigid and brittle.
Describe briefly the molecular origin of the glass transition in amorphous polymers.
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Academic.Tips. (2021) 'Describe briefly the molecular origin of the glass transition in amorphous polymers'. 2 July.
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Academic.Tips. (2021, July 2). Describe briefly the molecular origin of the glass transition in amorphous polymers. https://academic.tips/question/describe-briefly-the-molecular-origin-of-the-glass-transition-in-amorphous-polymers/
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Academic.Tips. 2021. "Describe briefly the molecular origin of the glass transition in amorphous polymers." July 2, 2021. https://academic.tips/question/describe-briefly-the-molecular-origin-of-the-glass-transition-in-amorphous-polymers/.
1. Academic.Tips. "Describe briefly the molecular origin of the glass transition in amorphous polymers." July 2, 2021. https://academic.tips/question/describe-briefly-the-molecular-origin-of-the-glass-transition-in-amorphous-polymers/.
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Academic.Tips. "Describe briefly the molecular origin of the glass transition in amorphous polymers." July 2, 2021. https://academic.tips/question/describe-briefly-the-molecular-origin-of-the-glass-transition-in-amorphous-polymers/.
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"Describe briefly the molecular origin of the glass transition in amorphous polymers." Academic.Tips, 2 July 2021, academic.tips/question/describe-briefly-the-molecular-origin-of-the-glass-transition-in-amorphous-polymers/.