偶联剂对聚丙烯/木粉复合材料力学和热性能的影响

Macromol Pub Date : 2023-02-03 DOI:10.3390/macromol3010006
Cecilia Zárate-Pérez, R. Ramírez-Aguilar, E. Franco-Urquiza, Carlos Sánchez-Alvarado
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引用次数: 2

摘要

这项工作是学术界和工业界的共同努力,旨在促进新的可持续和有利可图的制造产品材料的发展。在聚丙烯(PP)中加入木粉颗粒(WF),在开发利用可再生资源生产PP/WF复合材料的产品中具有环境优势。然而,亲水强化相(木粉)与非极性聚合物基体(PP)之间的相互作用较差,导致机械性能不足。本研究详细介绍了接枝剂和母粒偶联剂的使用,以评估它们对力学参数的影响。组分之间的低相容性有利于提高复合材料的热性能,因为增强相起成核剂的作用。PP表现出典型的力学行为,颈缩明显,变形能力约为180%。PP/WF复合材料的力学行为表现为在屈服点后出现弹性区,应力-应变曲线缩短,在应变值约为2-4%时塑性降低。接枝偶联剂与PP的分子间性能优于母粒偶联剂。与PP相比,复合材料的弹性模量提高到82%左右。加工方法影响复合材料的热性能。熔融共混工艺促进了分子取向,而注射成型消除了挤出颗粒的热力学历史。复合材料的熔融温度相似,因此没有热降解的迹象。结果表明,偶联剂对PP结晶度的影响大于对拉伸强度的影响。扫描电镜观察显示,WF和PP之间的粘合不足,这有助于减少拉伸测试过程中的应力传递。WF颗粒作为填料,增加了复合材料的刚度,降低了复合材料的延性。
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The Role of Coupling Agents in the Mechanical and Thermal Properties of Polypropylene/Wood Flour Composites
This work is a collaborative effort between academia and industry to promote the development of new sustainable and profitable materials for manufacturing products. Incorporating wood flour particles (WF) in polypropylene (PP) grants environmental advantages in developing products that use renewable resources to manufacture PP/WF composites using the melt intercalation process. However, the interaction between a hydrophilic strengthening phase (wood flour) with a nonpolar polymer matrix (PP) is poor, resulting in deficient mechanical performance. This investigation details the use of graft and masterbatch coupling agents to evaluate their effects on mechanical parameters. The low compatibility between the constituents favors increasing the composites’ thermal properties because the reinforcing phase acts as a nucleating agent. PP showed typical mechanical behavior, with a marked necking and a wide deformation capacity of approximately 180%. The mechanical behavior of the PP/WF composites revealed an elastic region followed by a termination after their yield point, shortening the stress–strain curves and reducing their ductility at strain values of approximately 2–4%. Graft coupling agents have better intermolecular performance with PP than masterbatch coupling agents. The modulus of elasticity of the composites increased to around 82% relative to PP. Processing methods influenced the thermal properties of the composites. The melt-blending process promoted molecular orientation, while injection molding erased the thermomechanical history of the extruded pellets. The melting temperature was similar in the composites, so there was no evidence of thermal degradation. The results showed that the coupling agents favor the crystallinity of the PP over tensile strength. SEM observations showed insufficient adhesion between the WF and PP, which promotes a reduction in stress transfer during tensile testing. The WF particles act as fillers that increase the stiffness and reduce the ductility of composites.
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