STUDY ON THE INTERNAL CRACK STRESS STRENGTH FACTOR OF WELDED JOINTS OF HIGHSPEED RAIL BOGIES

HUI Li; ZHANG YiFei; ZHOU Song; YANG WenJun; AN JinLan

doi:10.16579/j.issn.1001.9669.2024.06.022

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STUDY ON THE INTERNAL CRACK STRESS STRENGTH FACTOR OF WELDED JOINTS OF HIGHSPEED RAIL BOGIES

Fatigue · Damage · Fracture · Failure Analysis | 更新时间：2025-04-28

- STUDY ON THE INTERNAL CRACK STRESS STRENGTH FACTOR OF WELDED JOINTS OF HIGHSPEED RAIL BOGIES
- Journal of Mechanical Strength Vol. 46, Issue 6, Pages: 1449-1457(2024)
- 作者机构：
  
  1. 沈阳航空航天大学航空制造工艺数字化国防重点学科实验室
  2. 沈阳航空航天大学机电工程学院
- 作者简介：
- 基金信息：
- DOI：10.16579/j.issn.1001.9669.2024.06.022
  CLC： TG407
- Published：15 December 2024
- 稿件说明：
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HUI Li, ZHANG YiFei, ZHOU Song, et al. STUDY ON THE INTERNAL CRACK STRESS STRENGTH FACTOR OF WELDED JOINTS OF HIGHSPEED RAIL BOGIES[J]. Journal of mechanical strength , 2024, 46(6): 1449-1457.
DOI：

HUI Li, ZHANG YiFei, ZHOU Song, et al. STUDY ON THE INTERNAL CRACK STRESS STRENGTH FACTOR OF WELDED JOINTS OF HIGHSPEED RAIL BOGIES[J]. Journal of mechanical strength , 2024, 46(6): 1449-1457. DOI： 10.16579/j.issn.1001.9669.2024.06.022.

摘要

通过改变高铁转向架常用的十字焊接接头和斜交焊接接头中半椭圆形表面裂纹和椭圆形埋藏裂纹的大小、形状比和深度等几何参数

利用围线积分法探究裂纹前缘Ⅰ型应力强度因子KⅠ受几何参数的影响规律

并利用多元非线性回归的方法拟合出了求解KⅠ的数学表达式

利用围线积分法分析了KⅠ对裂纹大小和形状比变化的敏感程度。结果表明

KⅠ随裂纹的增大而增大并根据接头和裂纹形式的不同逐渐发散或收敛;KⅠ随裂纹形状比的增大而减小并逐渐收敛;KⅠ最大值点的位置由裂纹大小、裂纹形状比和裂纹位置共同决定;拟合出的求解KⅠ的数学表达式误差在5%以内

精度较高;在四种裂纹形式中

十字接头表面裂纹KⅠ对裂纹形状比的敏感度明显低于其他三种裂纹形式

斜交接头埋藏裂纹对裂纹大小的敏感度明显高于其他三种裂纹形式。

Abstract

By changing the geometric parameters such as the size

shape ratio and depth of semi-elliptical surface cracks and elliptical buried cracks in cross-welded joints and oblique welded joints commonly used in high-speed rail bogies

the influence of the geometric parameters on the type I stress intensity factor KI at the crack front was analyzed by a contour integral method.A mathematical expression for solving KI was fitted by a multivariate nonlinear regression method

and the sensitivity of KI to the change of crack size and shape ratio was analyzed by a countour integral method.The results show that KI increases with the increase of crack and gradually diverges or converges according to the difference of joint and crack form.KI decreases and converges gradually with the increase of the crack shape ratio.The location of the maximum point of KI was determined by crack size

crack shape ratio and crack location.The error of the fitted mathematical expression for solving KI was within 5%

and the accuracy is high.Among the four crack forms

the sensitivity of the surface crack KI of the cross joint to the crack shape ratio is obviously lower than that of the other three crack forms

and the sensitivity of the buried crack of the oblique joint to the crack size is obviously higher than that of the other three crack forms.

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