Improvement of Bending Fatigue Strength for Hybrid Cords with Carbon and Glass Fibers

E-journal of Soft Materials Pub Date : 2012-12-30 DOI:10.2324/EJSM.8.15

Masamori Furusawa, Yuuya Tsukada, T. Morimoto, H. Iizuka

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引用次数: 3

Abstract

Synchronous belts are rubber-composite materials with rubber, helical cords and facing fabrics. The helical cord is the tension member of the belt and is made of glass fibers, aramid fibers, or steel wires. Recent trends require increasingly high stiffness for the rubber belts. The use of carbon fibers and hybrid cords with carbon fibers are considered to be an effective way to achieve high stiffness for helical cords. This paper presents the study is to improve the bending fatigue strength of hybrid cords, where the center strand is made of carbon fibers, and the outer strands are made of glass fibers. The optimum cord composition for good bending fatigue durability is discussed following experimentation, mechanical analysis using a simplified mechanical model and FEM analysis. The model reasonably explained the initiation of the fatigue failure initiation site in the hybrid cords. The optimum cord composition was proposed for the bending fatigue strength basing on the simplified mechanical model. This was verified by experimental data showing good fatigue life. The use of such helical cords can considerably extend the operating life of synchronous belts.Copyright © 2009 by ASME

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碳纤维与玻璃纤维混合索弯曲疲劳强度的提高

同步带是橡胶复合材料，有橡胶、螺旋绳和面布。螺旋绳是皮带的张力构件，由玻璃纤维、芳纶纤维或钢丝制成。最近的趋势对橡胶带的刚度要求越来越高。碳纤维和碳纤维混合索的使用被认为是实现螺旋索高刚度的有效途径。本文提出的研究是为了提高混合绳的弯曲疲劳强度，其中中心股由碳纤维制成，外股由玻璃纤维制成。通过试验、简化力学模型和有限元分析，探讨了具有良好弯曲疲劳耐久性的帘子线的最佳组成。该模型合理地解释了混合索疲劳破坏起始部位的起始。在简化力学模型的基础上，提出了弯曲疲劳强度的最佳帘线组成。试验数据证实了这一点，显示出良好的疲劳寿命。使用这种螺旋线可以大大延长同步带的使用寿命。ASME版权所有©2009

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E-journal of Soft Materials

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