摘要
利用有限元软件ABAQUS研究钢腕臂结构在最大工作载荷下的变形量和应力分布情况,对比分析腕臂结构在不同预应力下的前十阶模态振型。采用谐响应分析法计算腕臂结构在不同预应力下的共振频率。研究结果表明:在最大工作载荷作用下,腕臂结构的最大应力出现在定位器与定位器支座接触位置,因此,该区域在服役过程中有可能出现严重的应力集中和材料磨损现象。当对腕臂结构施加预应力时,腕臂结构的低阶模态频率相比于无预应力状态下有明显增大,但其模态振型并不会发生变化。此外,谐响应分析结果表明,预应力的存在能够有效抑制腕臂结构沿铁路线方向(Y方向)的振动。以上研究结果可为新型腕臂结构的设计优化提供指导。
Abstract: In this study, the deformation and stress distribution of cantilever structure of overhead contact system(OCS) were analyzed under maximum working load by using finite element software (ABAQUS). Accordingly,the first ten natural frequencies and their corresponding modes under different pre-stress working conditions werecalculated. Furthermore, the resonance frequency was obtained by using the harmonic response method, toevaluate the stability of the cantilever structure. Results show that the maximum stress of the steel cantileverstructure concentrates on the contact position of steady arm and steady arm supporter, which may consequentlycause the unwanted material wear and damage generated in this area during working process. The lower-ordermodel frequencies show significant variation when the cantilever structure is applied to different pre-stresses,while the mode sharps show on visible variation. Moreover, results obtained from the harmonic response methodindicates that the existence of the pre-stress can significantly suppress the vibration of cantilever structure alongthe railway line (-Y) direction. These results can provide important engineering guidance for design andoptimization of the cantilever structure.
出处
《铁道科学与工程学报》
CAS
CSCD
北大核心
2017年第6期1296-1302,共7页
Journal of Railway Science and Engineering
基金
国家自然科学基金联合基金资助项目(U1534209)
中国铁路总公司科技研究开发计划重点课题(2015J005-D)
