摘要
针对既有复合垫板存在不锈钢板锈蚀的问题,研制了改性尼龙66减摩垫板。该垫板具有良好的绝缘性能,不会与钢轨产生电化学腐蚀,可长期保持较小的摩擦因数;采用一体式结构,可彻底避免既有复合垫板中不锈钢板与橡胶垫板脱离的问题。经室内试验和现场试铺,改性尼龙66减摩垫板满足扣件组装性能及列车安全运行的要求,同时可以有效降低钢轨纵向阻力的增大幅度,防止垫板沿钢轨方向窜动。
To solve the corrosion problem of stainless steel plate in the existing composite pad,the modified nylon66antifriction rail pad was developed.Such pad has good insulation performance,will not cause electrochemical corrosion on rails and maintain a small friction factor for a long time,which uses an integral structure and can avoid the separation problem between stainless steel plate and rubber pad in existing composite pad.Through laboratory test and field test,the modified nylon66antifriction rail pad could meet the requirements of fastener assembly performance and train safety operation,effectively reduce the increasing amplitude of rail longitudinal resistance,and prevent the pad from moving along the rail direction.
作者
李彦山
方杭玮
汤啸
杨君平
LI Yanshan;FANG Hangwei;TANG Xiao;YANG Junping(Railway Engineering Research Institute,China Academy of Railway Sciences,Beijing 100081,China;Zhejiang Tiantai Xianghe Industrial Co. Ltd.,Taizhou Zhejiang 317200,China)
出处
《铁道建筑》
北大核心
2017年第11期119-121,共3页
Railway Engineering
基金
中国铁路总公司科技研究开发计划(2015G001-I)
关键词
高速铁路
小阻力扣件
室内试验
改性尼龙66减摩垫板
纵向阻力
High speed railway
Small resistance fastener
Laboratory test
Modified nylon 66 antifriction rail pad
Longitudinal resistance
