考虑到多曲线段和金属去除,优化地铁急弯的轨道轮廓

Shuguo Wang, Jingmang Xu, Caiwei Liu, Yao Qian, Ping Wang, Pu Wang, Qiantao Ma, Boyi Liu
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引用次数: 0

摘要

为了有效解决地铁急半径曲线上钢轨磨损轮廓优化的工程问题,本文重点研究了此类曲线上钢轨不一致的磨损特性。以接触应力、轮轨侧向力和磨损指数为目标函数,选取直线过渡点、曲线过渡点、曲线中点、圆弧过渡点和直线过渡点的关键钢轨轮廓。在优化极限曲线的基础上,提出了一种多目标、多断面的优化方案,用于设计地铁急半径曲线上的钢轨打磨轮廓。为了比较其优化效果,还提出了另外两种优化方案:第二种方案涉及以无优化极限曲线为约束条件的多截面轮廓优化,第三种方案涉及等截面磨削的单一轮廓优化。通过对三种优化方案的比较,结果表明三种方案都能在优化后降低接触应力、砂轮导轨侧向力和内外股道的磨损指数。方案 1 显示轮轨接触点分布更广泛、更均匀,接触应力降低幅度更大,接触面积增加。方案 3 只改善了磨损严重路段的接触情况,而在磨损较轻的路段,接触分布变得集中,加速了磨损的演变。此外,在方案 1 中,与优化前相比,100,000 和 200,000 次循环后的累积磨损最大分别减少了 8.44% 和 22.33%,是三种方案中最有效的。因此,本文提出的优化方法输出的优化轮廓被认为是最佳方案,以方案 1 为代表。
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Rail profile optimization of a subway’s sharp curve considering multiple curve sections and metal removal
In order to effectively address the engineering problem of optimizing the worn rail profile on subway sharp-radius curves, this paper focuses on the inconsistent wear characteristics of rails on such curves. The contact stress, wheel-rail lateral force, and wear index are taken as objective functions, and key rail profiles at the points of straight-transition, transition-curve, curve-midpoint, circular-transition, and transition-straight are selected. A multi-objective and multi-section optimization scheme based on the optimized limit curve is proposed to design the grinding profile for rails on subway sharp-radius curves. In order to compare its optimization effectiveness, two additional optimization schemes are presented: the second scheme involves multi-section profile optimization with no optimized limit curve as constraints, and the third scheme deals with optimizing a single profile for grinding with equal cross-sections. Through a comparison of the three optimization schemes, the results indicate that all three schemes lead to a reduction in the contact stress, wheel-rail lateral force, and wear index of the outer and inner stock rails after optimization. Scheme 1 shows a more extensive and uniform distribution of wheel-rail contact points, with larger reductions in contact stress and increases in contact area. Scheme 3 only improves contact in severely worn sections, while in less worn sections, the contact distribution becomes concentrated, accelerating wear evolution. Furthermore, in Scheme 1, the cumulative wear after 100,000 and 200,000 cycles is reduced by a maximum of 8.44% and 22.33% compared to before optimization, making it the most effective among the three schemes. Therefore, the optimized profile output by the optimization method proposed in this paper is considered the best solution, which is represented by Scheme 1.
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来源期刊
CiteScore
4.80
自引率
10.00%
发文量
91
审稿时长
7 months
期刊介绍: The Journal of Rail and Rapid Transit is devoted to engineering in its widest interpretation applicable to rail and rapid transit. The Journal aims to promote sharing of technical knowledge, ideas and experience between engineers and researchers working in the railway field.
期刊最新文献
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