Numerical Investigations on Wedge Control of Separation of a Missile from an Aircraft | Zendy

Shiquan Zhu | Zendy; Zhengui Huang | Zendy; Yongjie Gou | Zendy; Qizhong Tang | Zendy; Zhihua Chen | Zendy

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Numerical Investigations on Wedge Control of Separation of a Missile from an Aircraft

Author(s) -

Shiquan Zhu,

Zhengui Huang,

Yongjie Gou,

Qizhong Tang,

Zhihua Chen

Publication year - 2018

Publication title -

defence science journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.198

H-Index - 32

eISSN - 0976-464X

pISSN - 0011-748X

DOI - 10.14429/dsj.68.12552

Subject(s) - missile , wedge (geometry) , separation (statistics) , flow separation , aerodynamics , mechanics , aerospace engineering , control theory (sociology) , flow (mathematics) , flow control (data) , engineering , geology , physics , computer science , optics , boundary layer , control (management) , telecommunications , machine learning , artificial intelligence

To make the missile safely separate from the internal weapons bay, a wedge flow control device is mounted on the front of the bay to control the variation of flow during the separation. The numerical simulations of missile separation without and with wedge flow control device under different sizes are carried out. The flow fields of different separation processes are obtained and discussed; the aerodynamic parameters and trajectory parameters of missile of different cases are illustrated and compared. Results show that, the wedge flow control device can accelerate the missile separation and has the effect of regulating the angular motion of missile. The influence of the wedge height is stronger than that of its length on the center of gravity motion and angular motion of missile.

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