The effects of extrusion parameters and blend composition on the mechanical, rheological and thermal properties of LDPE/PS/PMMA ternary polymer blends

IF 3.9 Q2 ENGINEERING, INDUSTRIAL
Y. Ding , C. Abeykoon , Yasith S. Perera
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引用次数: 9

Abstract

Polymer blending is one of the popular methods for producing tailor-made materials by combining the properties of individual polymers. Binary polymer blends have quite commonly been used over the past few decades. Recently, researchers have shifted their focus towards ternary polymer blends and this study aims to investigate a ternary polymer blend system consisting of low-density polyethylene (LDPE), polystyrene (PS) and polymethyl methacrylate (PMMA). The LDPE/PS/PMMA blend was processed by melt blending using a twin-screw extruder. The effects of the extrusion process parameters (i.e., screw speed and barrel set temperatures) and the blend composition on the mechanical, rheological and thermal properties of the polymer blend and the degree of crystallinity of the LDPE matrix were studied. Three different screw speeds (i.e., 50 rpm, 100 rpm and 150 rpm), two different barrel set temperatures (i.e., 200 °C and 220 °C), and two different component mass ratios (i.e., 70/10/20 and 70/20/10) were studied. The results showed that the tensile properties of the LDPE/PS/PMMA blend were significantly influenced by its microstructure. Yield strength and Young's modulus decreased at first and then increased with increasing screw speed. The blend processed at a barrel set temperature of 220 °C was found to have better tensile properties than the blend processed at 200 °C. Furthermore, the blend with a PS content of 10 wt% possessed better tensile properties than the blend with a PS content of 20 wt%. Regardless of the blend compositions and the process settings, the LDPE/PS/PMMA blends reported better mechanical properties than those of pure LDPE with a Young's Modulus of 240 MPa and a yield stress of 10.47 MPa. The rheology of the blend was also significantly affected by the process parameters and the blend composition. However, different process parameters and mass ratios did not indicate a significant influence on the melting temperature (around 109.5 °C) and the degradation initiation temperature (around 252.3 °C) of the LDPE/PS/PMMA blend, but both the melting temperature and the degradation initiation temperature of the ternary blend were found to be slightly lower than those of pure LDPE. The degree of crystallinity of the LDPE matrix was also affected by both the screw speed and the barrel set temperature. The results revealed that, better mechanical properties can be achieved by blending PS and PMMA with LDPE without significantly affecting the thermal properties compared to those of pure LDPE.

挤出参数和共混物组成对LDPE/PS/PMMA三元共混物力学、流变和热性能的影响
聚合物共混是通过结合单个聚合物的性能来生产定制材料的流行方法之一。在过去的几十年里,二元聚合物共混物已经被广泛使用。近年来,研究人员将重点转向三元聚合物共混体系,本研究旨在研究由低密度聚乙烯(LDPE)、聚苯乙烯(PS)和聚甲基丙烯酸甲酯(PMMA)组成的三元聚合物共混体系。采用双螺杆挤出机对LDPE/PS/PMMA共混物进行熔融共混加工。研究了挤出工艺参数(螺杆转速、料筒设定温度)和共混物组成对聚合物共混物的力学性能、流变性能和热性能以及LDPE基体结晶度的影响。研究了三种不同的螺杆转速(即50 rpm, 100 rpm和150 rpm),两种不同的筒体设定温度(即200°C和220°C)以及两种不同的组分质量比(即70/10/20和70/20/10)。结果表明,LDPE/PS/PMMA共混物的拉伸性能受到其微观结构的显著影响。随着螺杆转速的增加,屈服强度和杨氏模量先减小后增大。在220°C的桶设定温度下加工的共混物比在200°C下加工的共混物具有更好的拉伸性能。此外,PS含量为10 wt%的共混物比PS含量为20 wt%的共混物具有更好的拉伸性能。无论共混物的组成和工艺设置如何,LDPE/PS/PMMA共混物的力学性能均优于纯LDPE,杨氏模量为240 MPa,屈服应力为10.47 MPa。共混物的流变性也受工艺参数和共混物组成的显著影响。然而,不同的工艺参数和质量比对LDPE/PS/PMMA共混物的熔融温度(109.5℃左右)和降解起始温度(252.3℃左右)没有显著影响,但发现三元共混物的熔融温度和降解起始温度均略低于纯LDPE。螺杆转速和料筒设定温度对LDPE基体的结晶度也有影响。结果表明,与纯LDPE相比,PS和PMMA与LDPE共混可以获得更好的力学性能,而热性能没有明显影响。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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