Abrasion performance and failure mechanism of fiber yarns based on molecular segmental differences

• Published in: Journal of engineered fibers and fabrics Vol. 19
• Main Authors: Li, Hongxia, He, Guifang, Zhao, Zhengjie, Liu, Qingyang, Wang, Junben, Yin, Yanzheng, Cui, Yuli, Ning, Xin, Ning, Fanggang
• Format: Journal Article
• Language: English
• Published: London, England SAGE Publications 01.01.2024; SAGE Publishing
• Subjects: influencing factors; molecular chain segments; Yarn-on-yarn abrasion; failure mechanism; fibers for ropes
• ISSN: 1558-9250; 1558-9250
• DOI: 10.1177/15589250241228263

With the development of lightweight engineering, load-bearing structures such as synthetic fiber ropes are being increasingly used in engineering projects. During the process of repeated stretching or bending, abrasion occurs between the yarns of fiber assemblies like ropes. Fatigue failure caused by abrasion between yarns is one of the main reasons for the failure of such fiber assemblies. Different chain segments of fiber assemblies exhibit different properties. This study takes the four fibers of flexible chain fibers Ultra-high molecular weight polyethylene (UHMWPE), Polyethylene glycol terephthalate (PET) and rigid chain fibers Poly-p-phenylene terephthamide (PPTA) and Polyarylate (PAR), which are widely used in ropes and cables, as the research materials, and explores the influence of abrasion frequency and yarn tension on different chain segment fibers. To explore the failure and influencing factors of rigid chain and flexible chain fibers abrasion leads to fiber assemblies like those ropes. Based on the observation and analysis of the abrasion zone temperature, yarn state, and wear debris morphology of failed yarns, an abrasion failure mechanism is proposed, providing guidance for the design and application of fatigue-resistant products for ropes.