Time- and temperature-dependent mechanical and rheological behaviours of injection moulded biodegradable organoclay nanocomposites

IF 9.9 Q1 MATERIALS SCIENCE, COMPOSITES

Advanced Industrial and Engineering Polymer Research Pub Date : 2023-12-02 DOI:10.1016/j.aiepr.2023.11.003

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Abstract

Injection moulded specimens were produced from biodegradable poly(butylene succinate) (PBS)/organomodified montmorillonite (OMMT) nanocomposites, after melt compounding in different compositions. WAXD studies demonstrated that the OMMT formed similar intercalation levels in the 2.5–10 w/w% additive ratio range. It was also proved by rotational rheometry that the nanoclay stacks form physical network above 5 w/w% concentration, which significantly influence the viscoelastic properties of the melt. The value of zero shear viscosity also changed accordingly, starting to increase above 5 w/w% nanoclay content. The OMMT content reduced the creep sensitivity measured in molten state.

X-ray and DSC investigations showed that OMMT inhibits the crystallisation of PBS, resulting in a decrease in crystallinity at higher nanoclay ratios. As a result, the room temperature creep increased with the OMMT ratio.

The Young's modulus linearly increases in the entire concentration range exceeding 1.2 GPa at 10 w/w% nanoclay content. The value of yield strength does not change significantly (35–40 MPa), but the strain at yield – which characterises stiffness – and the notched Izod impact strength already decrease at 2.5 w/w% OMMT content, but further increasing the nanoclay content has minor effect. However, the nanocomposite with 10 w/w% OMMT can be a real alternative to polypropylene (PP) and high-density polyethylene (HDPE) injection moulded products based on its mechanical properties.

To characterise the effect of OMMT on dynamic mechanical properties, the S (Stiffening effectiveness), L (Loss effectiveness) and D (Damping effectiveness) indices were introduced to quantitatively describe the nanoclay effect intensity in each temperature range.

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注塑生物可降解有机粘土纳米复合材料随时间和温度变化的机械和流变行为

可生物降解的聚（丁二酸丁二醇酯）（PBS）/有机改性蒙脱石（OMMT）纳米复合材料经过不同成分的熔融复合后制成了注塑试样。WAXD 研究表明，在添加剂比例为 2.5-10 w/w% 的范围内，OMMT 形成了相似的插层水平。旋转流变仪也证明，纳米粘土堆在 5 w/w% 以上的浓度时会形成物理网络，从而显著影响熔体的粘弹性能。零剪切粘度值也发生了相应的变化，在纳米粘土含量超过 5 w/w% 时开始增加。X 射线和 DSC 研究表明，OMMT 会抑制 PBS 的结晶，导致纳米粘土比例越高，结晶度越低。因此，室温蠕变随 OMMT 比率的增加而增加。当纳米粘土含量为 10 w/w% 时，杨氏模量在整个浓度范围内线性增加，超过 1.2 GPa。屈服强度值变化不大（35-40 兆帕），但屈服应变（表征刚度）和缺口伊佐德冲击强度在 OMMT 含量为 2.5 w/w% 时已经下降，但进一步增加纳米粘土含量影响不大。为了描述 OMMT 对动态机械性能的影响，引入了 S（增刚效果）、L（损失效果）和 D（阻尼效果）指数来定量描述纳米土在每个温度范围内的影响强度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Industrial and Engineering Polymer Research Materials Science-Polymers and Plastics

CiteScore

26.30

自引率

0.00%

发文量

审稿时长

29 days