Research on Rapidly Shaped Charge Cutting Technology of Aircraft Damaged Thin-Wall Structure

A. Y. Cui; F. Y. Hu; H. K. Wei; H. D. Liu; Z. Wang; X. L. Dong

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Research on Rapidly Shaped Charge Cutting Technology of Aircraft Damaged Thin-Wall Structure

机译：飞机破损薄壁结构快速成型装药切削技术研究

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Shaped charge cutting technology has been introduced into the field of aircraft structure repair to rapidly reshape irregular holes in thin-walled structures. In the present research, numerical calculation of the dynamic cutting process by ANSYS and experiments of shaped charge cutting on a 2A12 aluminum alloy plate with 2 mm thickness have been carried out. It was found that fast kerf is smooth, producing a neat edge and good linearity. The incision fracture section is arranged in neat rows on a corrugated strip, and the lines are clear. Otherwise, the lower part is slightly messy without obvious distribution rules. The target plate separation method of cumulative cutting is a kind of "pre-penetration" and "late tear" method. The application of shaped charge cutting technology can aid in repair of aircrafts' thin-walled structural damage.

机译：异型电荷切割技术已被引入飞机结构维修领域，以快速重塑薄壁结构中的不规则孔。在本研究中，已经进行了用ANSYS进行的动态切削过程的数值计算以及在厚度为2 mm的2A12铝合金板上进行成形装药切削的实验。发现快速切缝是光滑的，产生整齐的边缘和良好的线性。切口骨折部分在波纹状条带上整齐排列，线条清晰。否则，下部会有些混乱，没有明显的分配规则。累积切割的目标板分离方法是一种“预穿透”和“后期撕裂”方法。异形电荷切割技术的应用可以帮助修复飞机的薄壁结构损坏。

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《Проблемы прочностиПроблемы прочности: на рус．укр．и анг．языках》 |2016年第439期|共6页
作者
A. Y. Cui; F. Y. Hu; H. K. Wei; H. D. Liu; Z. Wang; X. L. Dong;
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正文语种 eng
中图分类理论力学（一般力学）;工程基础科学;
关键词
Cumulative cutting; Jet penetration; Fracture morphology;

机译：累积切削;射流穿透;断裂形态;

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专利

1. Research on Rapid Shaped-Charge Cutting Technology of Aircraft Damaged Thin-Wall Structures [J] . Cui A. Y., Hu F. Y., Wei H. K., Strength of Materials . 2016,第1期

机译：飞机破损薄壁结构快速异形装料切割技术研究
2. Research on Rapid Shaped-Charge Cutting Technology of Aircraft Damaged Thin-Wall Structures [J] . Cui A. Y., Hu F. Y., Wei H. K., Strength of Materials . 2016,第1期

机译：飞机损坏薄壁结构的快速形电荷切割技术研究
3. Research on Rapidly Shaped Charge Cutting Technology of Aircraft Damaged Thin-Wall Structure [J] . A. Y. Cui, F. Y. Hu, H. K. Wei, Проблемы прочностиПроблемы прочности: на рус．укр．и анг．языках . 2016,第1a439期

机译：飞机破损薄壁结构快速成型装药切削技术研究
4. Numerical simulation of applying shaped charge cutting technology to Explosive Switch [C] . Zhefang Yao, Tingqing Zhou, Zhaowu Shen, 2010 International Conference on Computer Application and System Modeling . 2010

机译：异形电荷切割技术应用于爆炸开关的数值模拟
5. A preliminary investigation of the blade formation and cutting process of the linear shaped charges. [D] . Lim, Seokbin. 2006

机译：对线性装药的刀片形成和切割过程的初步研究。
6. A Novel Infrared Thermography Sensing Approach for Rapid Quantitative Assessment of Damage in Aircraft Composites [O] . Spyridoula Farmaki, Dimitrios A. Exarchos, Ilias K. Tragazikis, 2020

机译：一种新型红外热成像传感方法用于快速定量评估飞机复合材料损坏
7. D-Sight technique for rapid impact damage detection on composite aircraft structures [O] . Heida J.H., Bruinsma A.J.A. 1997

机译：D-Sight技术可快速检测复合材料飞机结构的撞击损坏

Research on Rapidly Shaped Charge Cutting Technology of Aircraft Damaged Thin-Wall Structure

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