激光冲击强化提高外物打伤钛合金模拟叶片高周疲劳性能
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博士后创新人才支持计划项目(BX201700077); 博士后面上项目(191785); 陕西省自然科学基金(2018JQ5125)


Improving fatigue performance of titanium alloy simulated-blade subjected to foreign object damage by laser shock peening
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    摘要:

    为指导钛合金叶片抗外物打伤激光冲击强化工艺设计,根据真实叶片叶型特征设计了刃口型模拟叶片,采用两种激光冲击强化工艺对模拟叶片进行预处理,并采用空气炮系统进行外物打伤模拟试验,最后通过疲劳试验和应力场预测进行疲劳性能影响规律及机理分析。试验结果表明:模拟叶片外物打伤后疲劳强度由51845 MPa降为29072 MPa,而激光能量为5 J和7 J强化工艺下疲劳强度分别提升至34449、37493 MPa。激光冲击引入高数值残余压应力场,大大改善了外物打伤区域的局部应力场分布,在显著提高外物打伤模拟叶片疲劳强度的同时,可承受更大的应力集中,也增大了疲劳缺口系数偏差。两种强化工艺中激光能量越大,产生的残余压应力场数值和深度越大,更加有效地降低裂纹扩展过程中的等效应力强度因子幅值,外物打伤模拟叶片疲劳强度和疲劳缺口系数偏差提高程度越大。

    Abstract:

    In order to design appropriate technics for solving foreign object damage (FOD) problem, a simulated-blade was designed according to aero-engine compressor blade size characteristics, then pre-treated by two laser shock strengthening processes, and impacted by air gun system. The effect rule and strengthening mechanism on fatigue performance were analyzed by high-cycle axial fatigue tests and stress field analysis. Test results indicated that fatigue strength of simulated-blade decreased from 51845 MPa to 29072 MPa subjected to foreign object damage. When pre-treated by laser shock peening with 5 J and 7 J, fatigue strength was improved to 34449 MPa and 37493 MPa, respectively. The introduction of high compressive residual stress field by laser shock peening greatly improved the local stress field distribution in the damage area, which not only significantly improved the fatigue strength of the simulated blade, but also increased the deviation of fatigue notch factor. With these two technics, the greater laser energy means the greater residual stress value and depth, helping to reduce more effectively the amplitude of the equivalent stress intensity factor in the crack propagation process, and bring about the greater increase of fatigue strength and fatigue notch factor deviation of the damaged simulated blade.

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聂祥樊,魏晨,侯志伟,汤毓源,何卫锋.激光冲击强化提高外物打伤钛合金模拟叶片高周疲劳性能[J].航空动力学报,2021,36(1):137~147. NIE Xiangfan, WEI Chen, HOU Zhiwei, TANG Yuyuan, HE Weifeng. Improving fatigue performance of titanium alloy simulated-blade subjected to foreign object damage by laser shock peening[J]. Journal Of Aerospace Power,2021,36(1):137-147.

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  • 收稿日期:2020-06-09
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  • 在线发布日期: 2021-02-04
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