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TiCN coating tribology for the circular economy of textile industries
Journal of Industrial Textiles ( IF 3.2 ) Pub Date : 2021-06-23 , DOI: 10.1177/15280837211025726
Abrar Hussain 1 , Vitali Podgursky 1 , Maksim Antonov 1 , Mart Viljus 1 , Dmitri Goljandin 1
Affiliation  

The circular economy is still a hypothetical field in Europe. Different shredding and manufacturing machinery parts in textile industries are presumed to enhance product quality and performance. The quality and performance of recycled textile products play a vital role in the development of textile recycling technologies. The quality is principally associated with the mechanical and tribological properties of machinery parts. In this article, TiCN Coating is used to determine the coefficient of friction of post-consumer cotton fabric. The scanning electron microscope, optical and mechanical profilometer, and tribometer were used for surface and tribological evaluations. The TiCN coating was found smooth and homogeneous. The average coating surface roughness parameters Rmax, Rz, Rp were 0.24 µm, 0.21 µm, and 0.20 µm, respectively. The dynamic coefficient of friction values was found 0.38 to 0.30 in the warp and 0.33 to 0.28 in weft directions. The increase in sliding distance is used for industrial applications and evaluations. The increase in distance deformed and fractured cotton fabric surface. The coefficient of friction and deformation becomes constant after 40 m of sliding distance. Based on coefficient of friction values, permanent deformation, fracture, and morphologies evaluations TiCN coatings could be used operationally for surface modification of textile machinery parts. The surface modification of textile machinery parts with TiCN coating can enhance the quality and performance of textile products.



中文翻译:

用于纺织工业循环经济的 TiCN 涂层摩擦学

循环经济在欧洲仍然是一个假设的领域。据推测,纺织工业中的不同切碎和制造机械零件可以提高产品质量和性能。回收纺织产品的质量和性能在纺织回收技术的发展中起着至关重要的作用。质量主要与机械零件的机械和摩擦学特性有关。在本文中,TiCN Coating 用于确定消费后棉织物的摩擦系数。扫描电子显微镜、光学和机械轮廓仪和摩擦计用于表面和摩擦学评估。发现 TiCN 涂层光滑且均匀。平均涂层表面粗糙度参数 R max, R z, Rp分别为 0.24 µm、0.21 µm 和 0.20 µm。发现动态摩擦系数值在经向为 0.38 至 0.30,在纬向为 0.33 至 0.28。滑动距离的增加用于工业应用和评估。距离的增加使棉织物表面变形和断裂。摩擦系数和变形系数在滑动距离 40 m 后变得恒定。基于摩擦系数值、永久变形、断裂和形态评估,TiCN 涂层可用于纺织机械零件的表面改性。用TiCN涂层对纺织机械零件进行表面改性可以提高纺织产品的质量和性能。

更新日期:2021-06-24
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