Novel manufacturing method for highly flexible poly(lactic acid) foams and ferroelectrets

IF 9.9 Q1 MATERIALS SCIENCE, COMPOSITES
Dániel Vadas , Katalin Bocz , Tamás Igricz , János Volk , Sándor Bordács , Lajos Madarász , György Marosi
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引用次数: 0

Abstract

Poly (lactic acid) (PLA) foams have demonstrated a high variety of functional characteristics, still, the rigidity of this cellular material remains a major limiting factor when it comes to implementation options. In this contribution, PLA foams with outstanding flexibility were created for the first time by a new approach of uniaxial stretching and immediate relaxation following supercritical CO2-assisted extrusion foaming. Instead of improving the resilience of the PLA raw material, structural elasticity of the foam was achieved via altering the deformation mechanism from cell wall collapse or rupture towards reversible and extensive flexural strain. In addition, PLA foams with excellent piezoelectric properties were also achieved via high-voltage corona poling, giving additional function to the lens-like anisotropic foam cells. This foaming technology creates the opportunity to produce PLA piezoelectrets in a way entirely different from the state-of-the-art methods. Correlation between the tensile as well as compression elongations and moduli, cell morphology and longitudinal piezoelectric coefficients (d33) of electretized foam samples were studied. Unprecedented reversible tensile elongations of up to 16% and total elongations of up to 35% were reached, as well as considerable d33 values in the range of 50–320 pC/N were obtained for PLA ferroelectrets.

Abstract Image

高柔性聚乳酸泡沫和铁电驻极体的新制造方法
聚乳酸(PLA)泡沫具有多种功能特性,但这种细胞材料的刚性仍然是限制其应用的主要因素。本文首次采用超临界二氧化碳辅助挤压发泡后进行单轴拉伸和立即松弛的新方法,制造出具有出色柔韧性的聚乳酸泡沫。这种方法不是提高聚乳酸原料的回弹性,而是通过改变变形机制,从细胞壁塌陷或破裂转向可逆的广泛挠曲应变,从而实现泡沫的结构弹性。此外,还通过高压电晕极化实现了具有优异压电特性的聚乳酸泡沫,为透镜状各向异性泡沫细胞赋予了额外的功能。这种发泡技术为生产聚乳酸压电体提供了完全不同于最先进方法的机会。我们研究了拉伸和压缩伸长率与模量、细胞形态和电硬化泡沫样品的纵向压电系数(d33)之间的相关性。聚乳酸铁电体的可逆拉伸伸长率达到前所未有的 16%,总伸长率达到 35%,d33 值在 50-320 pC/N 之间。
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来源期刊
Advanced Industrial and Engineering Polymer Research
Advanced Industrial and Engineering Polymer Research Materials Science-Polymers and Plastics
CiteScore
26.30
自引率
0.00%
发文量
38
审稿时长
29 days
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