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Main Authors: Xuedi Liu, Han Zhang, Sen Zhang, Hongyan Jin, Shuya Zhang, Dongfang Wang, Jing Jiang, Xiaofeng Wang, Hiroshi Uyama, Qian Li
Format: Artículo Open Access
Published: Wiley 2024
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Online Access:https://onlinelibrary.wiley.com/doi/10.1002/app.55607
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author Xuedi Liu
Han Zhang
Sen Zhang
Hongyan Jin
Shuya Zhang
Dongfang Wang
Jing Jiang
Xiaofeng Wang
Hiroshi Uyama
Qian Li
author_facet Xuedi Liu
Han Zhang
Sen Zhang
Hongyan Jin
Shuya Zhang
Dongfang Wang
Jing Jiang
Xiaofeng Wang
Hiroshi Uyama
Qian Li
Xuedi Liu
Han Zhang
Sen Zhang
Hongyan Jin
Shuya Zhang
Dongfang Wang
Jing Jiang
Xiaofeng Wang
Hiroshi Uyama
Qian Li
collection Wiley Open Access
contents Improving microinjection processability of biodegradable elastomer poly(l‐lactide‐co‐ε‐caprolactone) by blending with polycaprolactone and plasticizing with polyethylene glycol Xuedi Liu Han Zhang Sen Zhang Hongyan Jin Shuya Zhang Dongfang Wang Jing Jiang Xiaofeng Wang Hiroshi Uyama Qian Li Journal of Applied Polymer Science AbstractPoly(l‐lactide‐co‐ε‐caprolactone) (PLCL) is a biodegradable elastomer, but its applications are limited due to weak mechanical strength and processability. To overcome these limitations, PLCL was modified by incorporating polycaprolactone (PCL) and plasticizing with polyethylene glycol (PEG) for microinjection molding. The molded PLCL/PCL/PEG parts were characterized in terms of thermal properties, rheological properties, and mechanical properties. The results indicate that increasing the PCL content from 20% to 50% effectively enhanced the mechanical properties of the blend. Moreover, the addition of PEG enhanced the processability of the blends in the microinjection molding process with negligible impacts on their mechanical properties. PEG plasticizes the PLCL/PCL blend by reducing the intermolecular interactions of the blend, and the effect is more pronounced with a PEG of lower molecular weight. 10.1002/app.55607 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1002/app.55607
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institution Wiley Open Access
license_str_mv http://onlinelibrary.wiley.com/termsAndConditions#vor
publishDate 2024
publisher Wiley
record_format wiley_oa
spellingShingle Improving microinjection processability of biodegradable elastomer poly(l‐lactide‐co‐ε‐caprolactone) by blending with polycaprolactone and plasticizing with polyethylene glycol
Xuedi Liu
Han Zhang
Sen Zhang
Hongyan Jin
Shuya Zhang
Dongfang Wang
Jing Jiang
Xiaofeng Wang
Hiroshi Uyama
Qian Li
Journal of Applied Polymer Science
Improving microinjection processability of biodegradable elastomer poly(l‐lactide‐co‐ε‐caprolactone) by blending with polycaprolactone and plasticizing with polyethylene glycol Xuedi Liu Han Zhang Sen Zhang Hongyan Jin Shuya Zhang Dongfang Wang Jing Jiang Xiaofeng Wang Hiroshi Uyama Qian Li Journal of Applied Polymer Science AbstractPoly(l‐lactide‐co‐ε‐caprolactone) (PLCL) is a biodegradable elastomer, but its applications are limited due to weak mechanical strength and processability. To overcome these limitations, PLCL was modified by incorporating polycaprolactone (PCL) and plasticizing with polyethylene glycol (PEG) for microinjection molding. The molded PLCL/PCL/PEG parts were characterized in terms of thermal properties, rheological properties, and mechanical properties. The results indicate that increasing the PCL content from 20% to 50% effectively enhanced the mechanical properties of the blend. Moreover, the addition of PEG enhanced the processability of the blends in the microinjection molding process with negligible impacts on their mechanical properties. PEG plasticizes the PLCL/PCL blend by reducing the intermolecular interactions of the blend, and the effect is more pronounced with a PEG of lower molecular weight. 10.1002/app.55607 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Improving microinjection processability of biodegradable elastomer poly(l‐lactide‐co‐ε‐caprolactone) by blending with polycaprolactone and plasticizing with polyethylene glycol
topic Journal of Applied Polymer Science
url https://onlinelibrary.wiley.com/doi/10.1002/app.55607