Simulation and Measurements of Small Arms Blast Wave Overpressure in the Process of Designing a Silencer

[1] Meng, X., Wang, Z., Zhang, Z., Wang, F. (2013). A method for monitoring the underground mining position based on the blasting source location. Measurement Science Review, 13 (1), 45-49.10.2478/msr-2013-0009Search in Google Scholar

[2] Smith, F. (1974). A theoretical model of the blast from stationary and moving guns. In First International Symposium on Ballistics, 13-15 November 1974, Orlando, Florida.Search in Google Scholar

[3] Fansler, K.S., Thompson, W.P., Carnahan, J.S., Patton, B.J. (1993). A parametric investigation of muzzle blast. AD-A270 535. Army Research Laboratory, ARL-TR-227.Search in Google Scholar

[4] Fansler, K.S. (1985). Dependence of free field impulse on the decay time of energy efflux for a jet flow. In The Shock and Vibration Bulletin, Part 1. Washington, DC: The Shock and Vibration Center, Naval Research Laboratory, 203-212.Search in Google Scholar

[5] Heaps, C.W., Fansler, K.S., Schmidt, E.M. (1985). Computer implementation of a muzzle blast prediction technique. In The Shock and Vibration Bulletin, Part 1. Washington, DC: The Shock and Vibration Center, Naval Research Laboratory, 213-230.10.21236/ADA158344Search in Google Scholar

[6] Rehman, H., Hwang, S.H., Fajar, B. et all. (2011). Analysis and attenuation of impulsive sound pressure in large caliber weapon during muzzle blast. Journal of Mechanical Science and Technology, 25 (10), 2601-2606.10.1007/s12206-011-0731-2Search in Google Scholar

[7] Kang, K.J., Ko, S.H., Lee, D.S. (2008). A study on impulsive sound attenuation for a high-pressure blast flowfield. Journal of Mechanical Science and Technology, 22 (2008) 190-200.Search in Google Scholar

[8] Guo, Z., Pan, Y., Zhang, H., Guo, B. (2013). Numerical simulation of muzzle blast overpressure in antiaircraft gun muzzle brake. Journal of Information & Computational Science, 10 (10), 3013-3019.10.12733/jics20101913Search in Google Scholar

[9] Golovanov, O.A., Smogunov, V.V., Grachev, A.I. (2008). The mathematical modeling of wave’s processes in acoustic equipments based on decomposition algorithm. Penza University Review, 4 (20), 92-101.Search in Google Scholar

[10] Kurtovic, H.S. (1982). Basis of Technical Acoustic (in Serbian). Belgrade, Serbia: Naučna knjiga.Search in Google Scholar

[11] Li, H., Lei, Z. (2013). Projectile two-dimensional coordinate measurement method based on optical fiber coding fire and its coordinate distribution probability. Measurement Science Review, 13 (1), 34-38.10.2478/msr-2013-0006Search in Google Scholar

[12] Zhao, Z., Wen, G., Zhang, Y., Li, D. (2012). Model-based estimation for pose, velocity of projectile from stereo linear array image. Measurement Science Review, 12 (3), 104-110.10.2478/v10048-012-0013-xSearch in Google Scholar