Effects of tail wings on the ballistics and velocity of submunitions

Xiang Rong Li; Hai Fu Wang; Ying Xian Duo

Effects of tail wings on the ballistics and velocity of submunitions

Xiang Rong Li^*, Hai Fu Wang, Ying Xian Duo

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The design of tail wings and their effects on the ballistics and velocity of submunitions were studied. Wind tunnel tests were performed on submunitions with different tail wing sizes to get the aerodynamic characteristic parameters. Relations between the aerodynamic drag and flight velocity were obtained. Combined with particle ballistic equations, the effects of tail wing sizes and initial angle of pitch on the submunitions ballistic and velocity were calculated and analyzed. Results of analysis showed the submunition velocity can be reduced to less than Mach number 1 at the height of 15000 m when the tail-wings area nearly equals the maximum cross section area of the submunition body, for the initial condition of ballistic height of 5000 m, initial velocity of 6 Ma and angle of pitch of -75° ∼ -45°.

Original language	English
Pages (from-to)	1-4
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	26
Issue number	1
Publication status	Published - Jan 2006

Keywords

Ballistic characteristics
Increased drag and reduced-velocity
Wind tunnel test

Cite this

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abstract = "The design of tail wings and their effects on the ballistics and velocity of submunitions were studied. Wind tunnel tests were performed on submunitions with different tail wing sizes to get the aerodynamic characteristic parameters. Relations between the aerodynamic drag and flight velocity were obtained. Combined with particle ballistic equations, the effects of tail wing sizes and initial angle of pitch on the submunitions ballistic and velocity were calculated and analyzed. Results of analysis showed the submunition velocity can be reduced to less than Mach number 1 at the height of 15000 m when the tail-wings area nearly equals the maximum cross section area of the submunition body, for the initial condition of ballistic height of 5000 m, initial velocity of 6 Ma and angle of pitch of -75° ∼ -45°.",

keywords = "Ballistic characteristics, Increased drag and reduced-velocity, Wind tunnel test",

author = "Li, {Xiang Rong} and Wang, {Hai Fu} and Duo, {Ying Xian}",

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AU - Wang, Hai Fu

AU - Duo, Ying Xian

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N2 - The design of tail wings and their effects on the ballistics and velocity of submunitions were studied. Wind tunnel tests were performed on submunitions with different tail wing sizes to get the aerodynamic characteristic parameters. Relations between the aerodynamic drag and flight velocity were obtained. Combined with particle ballistic equations, the effects of tail wing sizes and initial angle of pitch on the submunitions ballistic and velocity were calculated and analyzed. Results of analysis showed the submunition velocity can be reduced to less than Mach number 1 at the height of 15000 m when the tail-wings area nearly equals the maximum cross section area of the submunition body, for the initial condition of ballistic height of 5000 m, initial velocity of 6 Ma and angle of pitch of -75° ∼ -45°.

AB - The design of tail wings and their effects on the ballistics and velocity of submunitions were studied. Wind tunnel tests were performed on submunitions with different tail wing sizes to get the aerodynamic characteristic parameters. Relations between the aerodynamic drag and flight velocity were obtained. Combined with particle ballistic equations, the effects of tail wing sizes and initial angle of pitch on the submunitions ballistic and velocity were calculated and analyzed. Results of analysis showed the submunition velocity can be reduced to less than Mach number 1 at the height of 15000 m when the tail-wings area nearly equals the maximum cross section area of the submunition body, for the initial condition of ballistic height of 5000 m, initial velocity of 6 Ma and angle of pitch of -75° ∼ -45°.

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Effects of tail wings on the ballistics and velocity of submunitions

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Keywords

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