Qianyun Peng scite author profile

Exploring the origin of multiple melting of thermoplastic polyurethane (TPU) is of great significance for comprehending the mechanism for its phase transition. Herein, the effects of two crystal forms (Form-I and Form-II) and crystal form transition on the melting behaviors and crystallization kinetics of TPU are reported. As the function of the crystallization temperature (T c ), Form-II and Form-I develop at T c ≥ 130 °C and T c ≤ 130 °C, respectively, which leads to distinct differential scanning calorimetry (DSC) melting curves of TPU. It is found that the repeated melting−recrystallization occurs during the melting of Form-I, which includes the crystal form transition of Form-I to Form-II, resulting in four melting peaks in the DSC heating curves of Form-I. The results reveal that the mesophase (Form-I) could transform into the stable crystal form (Form-II) through melting−recrystallization upon heating in TPU, and TPU has the ability to continuously reorganize the ordered structure upon heating. Meanwhile, the intervention of Form-I significantly increases the overall isothermal crystallization rates, and the motion ability of TPU molecular chains is the crucial factor affecting the generation of Form-I.

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Enhancement production of lipid and unsaturation of fatty acids in Cryptococcus humicola via addition of calcium ion

Chen

Peng

Chen

et al. 2022

World J Microbiol Biotechnol

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Investigation on the crystallization behavior and detail spherulitic morphology of two crystal forms of thermoplastic polyurethanes

Liu

Liao

et al. 2022

J Polym Res

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Qianyun Peng

Effect of CO₂ on the crystallization of poly(lactic acid) homo-crystallites via influencing the crystal structure of stereocomplex crystallites

High-expansion-ratio PLLA/PDLA/HNT composite foams with good thermally insulating property and enhanced compression performance via supercritical CO2

Effect of Two Crystalline Forms on the Multiple Melting and Crystallization Kinetics of Thermoplastic Polyurethane

Enhancement production of lipid and unsaturation of fatty acids in Cryptococcus humicola via addition of calcium ion

Investigation on the crystallization behavior and detail spherulitic morphology of two crystal forms of thermoplastic polyurethanes

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Qianyun Peng

Effect of CO2 on the crystallization of poly(lactic acid) homo-crystallites via influencing the crystal structure of stereocomplex crystallites

High-expansion-ratio PLLA/PDLA/HNT composite foams with good thermally insulating property and enhanced compression performance via supercritical CO2

Effect of Two Crystalline Forms on the Multiple Melting and Crystallization Kinetics of Thermoplastic Polyurethane

Enhancement production of lipid and unsaturation of fatty acids in Cryptococcus humicola via addition of calcium ion

Investigation on the crystallization behavior and detail spherulitic morphology of two crystal forms of thermoplastic polyurethanes

Contact Info

Product

Resources

About

Effect of CO₂ on the crystallization of poly(lactic acid) homo-crystallites via influencing the crystal structure of stereocomplex crystallites