摘要
航空发动机发生非包容事故时,叶片从高速转子脱落并带有姿态角撞向发动机机匣,但在已有的机匣包容性相关研究中,大部分为叶片正面直接冲击靶板,较少考虑叶片撞击时的姿态角对机匣包容性的影响。为研究双层金属机匣在受到带俯仰角的断裂叶片撞击时的包容能力和破坏模式,运用滑膛炮进行打靶试验模拟高速叶片撞击机匣,采用有限元仿真软件对打靶试验进行数值仿真,并通过仿真方法对机匣包容性规律开展进一步探索。结果表明,数值仿真结果与打靶试验结果较为吻合,仿真可准确评估打靶试验的靶板强度、预估发动机机匣包容性。基于此,运用仿真得出带俯仰角叶片撞击机匣的包容经验公式,得出机匣包容临界速度与叶片俯仰角成正比的结论,并分析了不同俯仰角对靶板破坏模式的影响。
When an aero-engine non-containment accident occurs,the blades will fall off from high-speed rotor and impact engine casing with attitude angle.In most containment research on aero-engine casing,blade impacted the casing directly,and the blade pitch angle impacting on casing was seldom considered.To study the containment capability and failure mode of double layer metal casing impacted by blade with pitch angle,a targeting experiment was conducted on a smoothbore gun testing system,and numerical simulations were carried out using explicit transient dynamic software.It shows that the numerical simulation results agree well with the targeting experiments.The influence of yaw blade on the critical velocity was studied by further numerical simulation,and the relationship formula is fitted.Simulation results prove that the containment critical speed of casing is proportional to the blade pitch angle,and the casing failure mode was studied.
作者
万云帆
张帆
曹振忠
章定国
WAN Yun-fan;ZHANG Fan;CAO Zhen-zhong;ZHANG Ding-guo(School of Science,Nanjing University of Science and Technology,Nanjing Jiangsu210094,China)
出处
《计算机仿真》
北大核心
2019年第5期58-62,共5页
Computer Simulation
关键词
航空发动机
俯仰角
打靶试验
包容性
数值仿真
Aero-engine
Pitch angle
Targeting experiment
Containment
Numerical simulation
