含顺丁烯二酸酐偶联剂的聚丙烯/纳米膨润土复合材料的拉伸强度和热性能

Fitria Ika Aryanti, Teguh Budi Santoso
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摘要

聚丙烯具有刚性好、熔点高、耐化学性强和易于加工等特性,是汽车行业使用最广泛的聚合物材料。聚丙烯中通常会添加填充剂(即膨润土),使聚丙烯具有更好的机械性能和热性能。添加偶联剂是为了提高基体与表面的粘合力,使复合材料具有更好的耐久性。为了提高填充材料的性能,膨润土被转化为纳米颗粒。由于膨润土纳米颗粒具有较大的表面积,因此与微观或宏观尺寸的颗粒相比,其机械、热、电和光学性能会更好。基于上述描述,有必要研究使用膨润土纳米颗粒与马来酸酐-g-PP(MAPP)形式的偶联剂对聚丙烯复合材料的拉伸强度和热性能的影响。本研究的变量是聚丙烯、偶联剂(MAPP)和膨润土纳米粒子的组成变化(重量百分比),分别为 100:0:0、95:0:5、90:5:5、85:5:10、92:3:5 和 87:3:10。本研究采用的方法是使用温度为 190°C 的双螺杆挤出机工具,然后测试其拉伸强度和热性能。结果表明,纳米膨润土的加入往往会导致样品分解温度的升高,但并不会增加复合材料的拉伸强度,因此它只起到聚合物复合材料填充物的作用。而根据差示扫描量热法(DSC)测试,焓值随着偶联剂浓度的增加而降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tensile Strength and Thermal Properties of Polypropylene/Nano-Bentonite Composites with Maleic Anhydride Coupling Agent
Polypropylene is the most widely used polymer material in the automotive industry due to its properties such as good rigidity, high melting point, chemical resistance, and easy processability. Polypropylene is usually added with a filler, namely bentonite, to make polypropylene which has better mechanical and thermal properties. The coupling agent is added to improve the adhesion of the matrix with the surface so that the composite component has better durability. To improve the ability of the filler material, bentonite is converted into nanoparticles. Bentonite nanoparticles are expected to have better mechanical, thermal, electrical, and optical properties than particles with micro or macro sizes due to their large surface area. Based on the description above, it is necessary to study the effect of using bentonite nanoparticles with a coupling agent in the form of Maleic Anhydride-g-PP (MAPP) on the tensile strength and thermal properties of polypropylene composites. The variables of this study are the composition variation (weight %) of polypropylene, coupling agent (MAPP), and bentonite nanoparticles of 100:0:0, 95:0:5, 90:5:5, 85:5:10, 92:3:5, and 87:3:10. The method used in this study uses a twin-screw extruder tool with a temperature of 190°C and then tested regarding its tensile strength and thermal properties. The results showed that the addition of nano-bentonite tends to cause an increase in the decomposition temperature of the sample but does not increase the tensile strength of the composite, so it only functions as a polymer composite filler. While based on Differential Scanning Calorimetry (DSC) testing, the enthalpy value decreases with increasing concentration of coupling agent.
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