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首页> 外文期刊>RSC Advances >Renewable vanillin based flame retardant for poly(lactic acid): a way to enhance flame retardancy and toughness simultaneously
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Renewable vanillin based flame retardant for poly(lactic acid): a way to enhance flame retardancy and toughness simultaneously

机译:基于可再生的Vanillin基于聚(乳酸)的阻燃剂:同时提高阻燃性和韧性的方法

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摘要

In this study, a novel bio-based flame retardant material consisting of modified vanillin and poly(lactic acid) (PLA) was developed by incorporation of newly discovered additive, bis(5-formyl-2-methoxyphenyl) phenylphosphonate (VP), into the PLA matrix. The chemical structure of VP was confirmed by H-1-, C-13- and P-31 NMR and FTIR. The flame retardancy, thermal behavior as well as the mechanical properties of PLA/VP composites were evaluated. With 5 wt% of VP, the LOI of PLA increased from 21.4 to 25.8 and passed the UL-94 V-0 classification. Additionally, the elongation at break was improved from 3% to 11% without sacrificing tensile strength. In an effort to understand the mechanisms, TGA-FTIR, TGA and SEM were performed. This paper suggests a new possibility to prepare polymeric composites with enhanced flame retardancy from sustainable resources.
机译:在该研究中,通过掺入新发现的添加剂,双(5-甲酰基-2-甲氧基氧基苯基)苯基膦酸盐(VP)来开发由改性的香草蛋白和聚(乳酸)(PLA)组成的新的生物基阻燃材料(PLA)组成的基于生物基阻燃剂(PLA)。 PLA矩阵。 通过H-1-,C-13-和P-31 NMR和FTIR确认VP的化学结构。 评估阻燃性,热行为以及PLA / VP复合材料的机械性能。 5%wt%的VP,PLA的LOI从21.4增加到25.8,并通过了UL-94 V-0分类。 另外,在不牺牲拉伸强度的情况下,断裂的伸长率从3%到11%提高。 努力了解机制,进行TGA-FTIR,TGA和SEM。 本文表明一种新的可能性,可以制备具有来自可持续资源的增强阻燃性的聚合物复合材料。

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  • 来源
    《RSC Advances》 |2018年第73期|共11页
  • 作者

    Zhao Pengcheng; Liu Zhiqi; Wang Xueyi; Pan Ye-Tang; Kuehnert Ines; Gehde Michael; Wang De-Yi; Leuteritz Andreas;

  • 作者单位

    Leibniz Inst Polymerforsch Dresden eV Verarbeitungsprozesse Hohe Str 6 D-01069 Dresden Germany;

    Chinese Acad Sci Key Lab Comprehens &

    Highly Efficient Utilizat Sa Qinghai Inst Salt Lakes Xining 810008 Peoples R China;

    Leibniz Inst Polymerforsch Dresden eV Verarbeitungsprozesse Hohe Str 6 D-01069 Dresden Germany;

    IMDEA Mat Inst C Eric Kandel 2 Madrid 28906 Spain;

    Leibniz Inst Polymerforsch Dresden eV Verarbeitungsprozesse Hohe Str 6 D-01069 Dresden Germany;

    Tech Univ Chemnitz Fak Maschinenbau Reichenhainer Str 70 D-09126 Chemnitz Germany;

    Leibniz Inst Polymerforsch Dresden eV Verarbeitungsprozesse Hohe Str 6 D-01069 Dresden Germany;

    Leibniz Inst Polymerforsch Dresden eV Verarbeitungsprozesse Hohe Str 6 D-01069 Dresden Germany;

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  • 正文语种 eng
  • 中图分类 化学;
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