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舰载无人机拦阻着舰中机身冲击响应分析
引用本文:熊文强,张闰,张晓晴,朱小龙,高宗战,刘晓明,何敏,姚小虎. 舰载无人机拦阻着舰中机身冲击响应分析[J]. 航空学报, 2019, 40(12): 222892-222892. DOI: 10.7527/S1000-6893.2019.22892
作者姓名:熊文强  张闰  张晓晴  朱小龙  高宗战  刘晓明  何敏  姚小虎
作者单位:华南理工大学土木与交通学院,广州,510640;成都飞机工业(集团)有限责任公司技术中心,成都,610092;西北工业大学力学与土木建筑学院,西安,710129
基金项目:国家自然科学基金(11672110)
摘    要:针对某舰载无人机拦阻着舰过程中的机体强度问题,以其中机身结构为主要研究对象,首次设计了包括中机身结构与前后机身、机翼假件以及拦阻钩等构件的地面拦阻模拟试验方案,并搭建了相应装置,采用地面试验和刚柔耦合仿真模拟2种方法,对拦阻着舰过程中拦阻力冲击下中机身结构的动态响应特性进行了全面分析。试验与仿真结果表明:中机身最大航向过载沿两条主传力路径自后机身到前机身方向衰减,下传递路径点的过载峰值明显大于上传递路径点的峰值;发现最大过载点位于拦阻接头处,应变危险点位于机腹梁前段处;中机身结构上各测点的试验和仿真过载误差均在5%以内,应变误差均在8%以内,验证了试验结果的有效性和刚柔耦合数值仿真方法的可行性。地面拦阻试验及数值仿真的联合分析可为舰载无人机机身结构强度设计提供重要参考,并为后续舰载无人机的拦阻着舰分析以及机身结构响应预测提供依据。

关 键 词:舰载无人机  拦阻地面试验  中机身结构  冲击响应  刚柔耦合模拟
收稿时间:2019-01-03
修稿时间:2019-05-22

Analysis of impact response of mid-fuselage ground arresting in a carrier-based UAV
XIONG Wenqiang,ZHANG Run,ZHANG Xiaoqing,ZHU Xiaolong,GAO Zongzhan,LIU Xiaoming,HE Min,YAO Xiaohu. Analysis of impact response of mid-fuselage ground arresting in a carrier-based UAV[J]. Acta Aeronautica et Astronautica Sinica, 2019, 40(12): 222892-222892. DOI: 10.7527/S1000-6893.2019.22892
Authors:XIONG Wenqiang  ZHANG Run  ZHANG Xiaoqing  ZHU Xiaolong  GAO Zongzhan  LIU Xiaoming  HE Min  YAO Xiaohu
Affiliation:1. School of Civil Engineering and Transportation, South China University of Technology, Guangzhou 510640, China;2. Technology Center, Chengdu Aircraft Industrial(Group) Co., Ltd., Chengdu 610092, China;3. School of Mechanics and Civil Architecture, Northwestern Polytechnical University, Xi'an 710129, China
Abstract:This paper aims at the airframe strength problem of a carrier-based UAV in the process of arresting and landing. With the fuselage structure as the main research object, a ground hindered simulation test plan is designed, including the fuselage structure, the fuselage and wings before and after false, and hindered hook component. The corresponding device is set up. Adopting the ground test and the coupled simulation, the dynamic response of the ship block resistance under the impact of the fuselage structure is analyzed. The test and simulation results show that the maximum longitudinal overload of the middle fuselage attenuates along the two main transmission paths from the rear fuselage to the front fuselage, and the peak load of the lower transmission path point is significantly higher than that of the upper transmission path point. It is found that the maximum overload point is at the arresting joint and the strain danger point is at the front section of the belly beam. The overload error of test and simulation at each measuring point on the medium fuselage structure is within 5% and the strain error is within 8%, which verify the validity of test results and the feasibility of the rigid-flexible coupling numerical simulation method. The joint analysis of ground arresting test and numerical simulation can provide important reference for the design of structural strength of carrier-based UAV, and provide basis for the subsequent analysis of arresting landing of carrier-based UAV and prediction of fuselage structural response.
Keywords:carrier-based UAV  arresting ground test  middle fuselage structure  impact response  rigid-flexible coupling simulation  
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