苏畅,孙淑玲,柴银刚,等. 航空发动机管路卡箍断裂分析及优化设计[J]. 失效分析与预防,2026,21(2):179-186. doi: 10.3969/j.issn.1673-6214.2026.02.010
    引用本文: 苏畅,孙淑玲,柴银刚,等. 航空发动机管路卡箍断裂分析及优化设计[J]. 失效分析与预防,2026,21(2):179-186. doi: 10.3969/j.issn.1673-6214.2026.02.010
    SU Chang,SUN Shuling,CHAI Yingang,et al. Fracture analysis and optimization design of aeroengine pipe clamp[J]. Failure analysis and prevention,2026,21(2):179-186. doi: 10.3969/j.issn.1673-6214.2026.02.010
    Citation: SU Chang,SUN Shuling,CHAI Yingang,et al. Fracture analysis and optimization design of aeroengine pipe clamp[J]. Failure analysis and prevention,2026,21(2):179-186. doi: 10.3969/j.issn.1673-6214.2026.02.010

    航空发动机管路卡箍断裂分析及优化设计

    Fracture Analysis and Optimization Design of Aeroengine Pipe Clamp

    • 摘要: 本文针对航空发动机外部管路系统用卡箍在服役过程中发生断裂的问题,进行外部管路系统的失效分析研究。采用宏观观察检查断裂位置和断口整体的特征,利用扫描电镜观察分析断口微观形貌,应用能谱分析选区化学成分,通过调整卡箍衬垫长度、卡箍安装力矩、卡箍R角尺寸,进行振动疲劳试验和有限元分析,确定卡箍的断裂性质和原因。结果表明:卡箍的断裂性质为疲劳断裂;卡箍不规范安装带来的附加应力叠加振动疲劳产生微裂纹,裂纹扩展导致断裂;提出优化拧紧工艺及优化结构设计两种方法来提高卡箍寿命的改进措施。基于振动疲劳测试和有限元模拟确定拧紧力矩和卡箍的最佳R角尺寸,并进行试验验证。改进后的卡箍抗疲劳振动时间大幅提高,卡箍在航空发动机服役过程的可靠性也大幅提高。

       

      Abstract: Aiming at the fracture failure of the clamps used in the external pipeline system of aero engines during service, failure analysis was carried out on the external pipeline system. Macroscopic observation on fracture position, macroscopic and microscopic observation on fracture surface, and energy spectrum analysis were carried out. In addition, after adjusting the length of the clamp gasket, and the installation torque and R-angle size of the clamp, vibration fatigue tests and finite element analysis were conducted to determine the fracture mode and cause of the clamps. The results show that the fracture mode of the clamps is fatigue fracture. The additional stress caused by non-standard installation of the clamps, combined with vibration stress, resulted in micro-cracks, and the cracks propagated, leading to fracture. Two improvement measures were proposed to enhance the service life of the clamps: optimizing the tightening process and optimizing the structural design. The tightening torque and optimal R-angle size of the clamps were determined based on vibration fatigue testing and finite element simulation, and were verified by experiments. The fatigue vibration resistance time of the improved clamps has been significantly increased, and the reliability of the clamps during service in aero engines has also been greatly enhanced.

       

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