Theoretical Analysis and Experimental Research on Cluster Bomb Warhead Built Pressure Device Based on Mechanical Mechanics

Han Zhang

doi:10.4028/www.scientific.net/AMR.644.260

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Study on Local Strain Field Intensity Approach for Prediction Fatigue Life of Crankshaft Based on Mechanical Mechanics
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Research on Expansion Technique of Lateral Supporting Structure in Explosive Neutralization System Based on Mechanical Mechanics
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Theoretical Analysis and Experimental Research on Cluster Bomb Warhead Built Pressure Device Based on Mechanical Mechanics
p.260

Kinematic Analysis and Simulation of a Novel Continuum Robot for Search and Rescue
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Virtual Prototype Design of Spherical Material Vibration Grader Machine Based on ADAMS
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Numerical Simulation of Unsteady Aerodynamic Loads over an Aerofoil in Transonic Flow
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 644Theoretical Analysis and Experimental Research on...

Theoretical Analysis and Experimental Research on Cluster Bomb Warhead Built Pressure Device Based on Mechanical Mechanics

Abstract:

This paper according to a certain type of cluster bomb warhead built pressure chamber technical index requirements, design process a set of gas pressure device built principle prototype, and experimental study was carried out. Based on gas build pressure device working process research has determined its three working section: pressure rise section, pressure balance segment and pressure drop section, and then according to the rocket engine interior ballistic principle for each work period respectively calculated, get gas build pressure device and build pressure chamber of the interior ballistic pressure curve, and finally use of principle prototype experimental study. The theoretical calculation curve and test the measured curve have very good consistency; prove this paper established pressure calculation model is reasonable and credible for future related problems research provides a basis.

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Periodical:

Advanced Materials Research (Volume 644)

Pages:

260-264

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.644.260

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Online since:

January 2013

Authors:

Han Zhang

Keywords:

Gas Build Pressure Device, Interior Ballistic, Rocket Engine

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References

[1] Zhangben, Lujun. Overview of shrapnel casting technique [J]. With the guidance of missiles, in February 2007, 20 vol.

Google Scholar

[2] ZhengRongYue, QinZiZeng. Cluster bomb research progress [J] national defense university of science and technology journals.

Google Scholar

[3] LongYaoSong, TuZhengGuang. Missile shell piece of separation of calculation and study [J]. J first national aerospace mechanics problems in the field of academic seminars, August (2004).

Google Scholar

[4] ZhangJing male, ZhaoXingFeng, ZhengZhiJiang. Guidance cluster bomb open room decision scheme [J]. Computer simulation of complex. In 2007 the month, 24 volumes, 04 period.

Google Scholar

[5] Wanghao. Cluster bomb internal combustion gasbag scatters model and computer simulation [J]. Journal of modernization, 2001, 23 (2) : 178-181.

Google Scholar

[6] TaoRuYi, WangFuHua, JiXiaoSong, Wanghao. Supersonic cluster bomb separation aerodynamic interference wind tunnel test [J]. Journal of trajectory, 2008, 20 vol.

Google Scholar

[7] TangMingYuan. After mother threw formulas of the projectile air ejection interior ballistic calculation [J]. Journal of ordnance play arrow pathol, 1989, (4) : 152-155.

Google Scholar

[8] LiuSen, ZhangLuMin. Reentry bomb thrown on the aerodynamic characteristics of the shell [J]. Journal of air power, 1993, (3) : 2.

Google Scholar

[9] WangGuangLin, CaiE. Solid rocket engine design [M]. Northwest industry university press, 1994: 4-6.

Google Scholar

[10] WangZheng, HuYongJiang. Solid rocket engine [M]. Beijing aerospace press, (1993).

Google Scholar

[11] ChengYi, ChenShouWen. Fireworks type gas generator chamber nozzle design and research. Design calculation research, (2001).

Google Scholar

[12] WangZeShan etc. Powder experimental methods [M]. Beijing: arms industry out plate club, (1994).

Google Scholar

[13] ChenFuMei. Eed principle and design [M]. Beijing: arms industry out plate club, (1990).

Google Scholar