Improvement of the Extruder Body Design in Order To Increase Reliability and Quality of Extrusion

I. Kazak
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Abstract

The article highlights one of the ways to improve the design of the extruder body in order to increase the reliability and, at the same time, the quality of extrusion. The object of research is a single-worm extruder. One of the most problematic areas of the extruder is the body. The main disadvantage of the extruder is the wear of the body surfaces due to corrosion or abrasion and requires regular replacement. This is due to the abrasive properties of the polymers and, accordingly, due to the friction of the polymer material against the body and the worm, especially due to contamination in the recycled material. In various sources, the replacement of the extruder worm with a more advanced design is widely covered. And scientists do not pay enough attention to improving the body of the extruder, which indicates the relevance of this study. That is why the problem of increasing the reliability of the extruder body is completely unsolved and urgent. In the course of the study, we used an analysis of the structural features of the extruder body, a literature-patent review of existing methods for improving the body of a single-worm extruder to increase the reliability and, at the same time, the quality of extrusion. As a result of the literature and patent review, the option of improving the extruder body based on the prototype of the split body, which additionally contains an inner surface of steel ribbed plates, was selected. It was found that the ribbing of the plates on the inner surface of the body increases the wear resistance of the body and promotes more intensive advancement of the polymer used material to the extruder head. This is due to the fact that the proposed improved body of the extruder has a number of features: steel ribbed plates rigidly fixed inside it are installed with overlap of the parting line of the extruder body. This makes it possible to increase the wear resistance and, accordingly, the reliability of the extruder body and, additionally, the extrusion quality. Compared with the known one-piece structures of the extruder body, the design of the body is detachable with steel rigidly mounted ribbed plates on the inner surface, which will simplify maintenance during repairs and, at the same time, improve the quality of extrusion.
改进挤出机本体设计,提高挤出的可靠性和质量
本文重点介绍了改进挤出机本体设计的方法之一,以提高挤出机的可靠性,同时提高挤出质量。研究对象为单蜗杆挤出机。挤出机最容易出问题的地方之一就是机身。挤出机的主要缺点是机体表面因腐蚀或磨损而磨损,需要定期更换。这是由于聚合物的磨蚀性能,因此,由于聚合物材料与机体和蠕虫的摩擦,特别是由于回收材料中的污染。在各种来源中,用更先进的设计替代挤出机蜗杆被广泛报道。而科学家对改进挤出机本体的重视程度不够,这说明了本研究的相关性。这就是为什么提高挤出机本体可靠性的问题是完全没有解决的和紧迫的。在研究过程中,我们对挤出机本体的结构特征进行了分析,对现有的改进单蜗杆挤出机本体的方法进行了文献专利审查,以提高可靠性,同时提高挤出质量。根据文献和专利审查的结果,选择了在分体原型的基础上改进挤出机体的选项,该分体另外包含钢肋板的内表面。研究发现,在挤出机机体内表面的板肋增加了机体的耐磨性,并促进了所用聚合物材料更密集地向挤出机头推进。这是由于所提出的改进挤出机本体具有以下几个特点:内部刚性固定的钢肋板安装在挤出机本体分型线的重叠处。这使得它有可能增加耐磨性,因此,挤出机本体的可靠性,另外,挤出质量。与目前已知的挤出机机身一体式结构相比,该机身采用可拆卸的设计,内表面采用钢刚性安装的肋板,简化了维修时的维护,同时提高了挤出质量。
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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