The weld life prediction of frame's damper seat based on notch stress model

2015 International Conference on Mechanical Engineering, Automation and Control Systems (MEACS) Pub Date : 2015-12-01 DOI:10.1109/MEACS.2015.7414963

Liu Xu, Zhang Kailin, Liu Changlin, Zheng Zhi

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Abstract

In order to analyze welded fatigue life of welded frame's accessories correctly, this paper adopts fictitious notch method of 1mm radius and establishes a notch stress model for an A1A-A1A-type locomotive bogie's primary vertical damper seat. Through FEM analysis, stress state at local weld toe and weld root for damper seat can be obtained. According to stress range, the danger points of welds can be confirmed. The full vehicle multi-body dynamic model is established for simulation analysis, for the sake of acquiring load-time history of vertical damper seat under track irregularity, which considering nonlinear damping speed character of vertical damper. Based on StressLife_Analysis module of nCode DesignLife, welded accumulative damage and life cycles under different stress parameters and fatigue class curves are calculated. Meanwhile, the corresponding nominal stress model is established to carry out analysis comparison. The result shows that in the same case, accumulative damage value calculated by a notch stress method is lower, life cycles is higher, and the normal stress method generally is partial to be conservative.

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基于缺口应力模型的车架阻尼座焊接寿命预测

为了正确分析焊接框架附件的焊接疲劳寿命，本文采用1mm半径的虚拟缺口法，建立了a1a - a1a型机车转向架一级垂直阻尼座的缺口应力模型。通过有限元分析，得到了阀座局部焊趾和焊根处的应力状态。根据应力范围确定焊缝的危险点。建立了考虑垂直减振器非线性阻尼速度特性的整车多体动力学模型进行仿真分析，获得了轨道不平顺作用下垂直减振器座的载荷时间历程。基于nCode DesignLife的StressLife_Analysis模块，计算了不同应力参数下焊接的累积损伤和寿命周期以及疲劳等级曲线。同时，建立相应的名义应力模型进行分析比较。结果表明，在相同情况下，缺口应力法计算的累积损伤值较低，寿命周期较高，而正应力法一般偏保守。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Mechanical Engineering, Automation and Control Systems (MEACS)

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