USE OF RAMJET-ASSISTED PROJECTILES FOR INCREASING THE FIRING RANGE OF FOREIGN ARTILLERY SYSTEMS
- 作者: Baskakov V.D.1, Kalugin V.T.1, Rozanov L.A.1, Sidnyaev N.I.1
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隶属关系:
- МГТУ им. Н.Э. Баумана
- 期: 卷 1, 编号 131 (2024): ИЗВЕСТИЯ РОССИЙСКОЙ АКАДЕМИИ РАКЕТНЫХ И АРТИЛЛЕРИЙСКИХ НАУК
- 页面: 101-108
- 栏目: Articles
- URL: https://journal-vniispk.ru/2075-3608/article/view/319577
- ID: 319577
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Presented are results of analysis of unclassified contributions in foreign information sources published since the year 1998 and concerning long-range artillery projectiles with solid-fuel ramjet (SFRJ) engines for use in foreign artillery systems. Basic characteristics including supposed range and explosive charge weight are estimated for four different 155 mm projectiles developed in South Africa, South Korea, India, and USA. A number of problems expected during the fitting of these designs into existing artillery complexes are highlighted. It is shown that unclassified foreign SFRJ projectile designs are capable of achieving their listed maximum range primarily by
means of high initial velocity and SFRJ performance. Informed speculations on the design and characteristics of a future SFRJ-assisted projectile for NATO artillery systems are drawn.
作者简介
V. Baskakov
МГТУ им. Н.Э. Баумана
编辑信件的主要联系方式.
Email: baskakov_vd@bmstu.ru
д-р техн. наук, профессор кафедры «Технологии ракетно-космического машиностроения» (СМ-12)
俄罗斯联邦V. Kalugin
МГТУ им. Н.Э. Баумана
Email: kaluginvt@bmstu.ru
д-р техн. наук, заведующий кафедрой «Динамика и
управление полетом ракет и космических аппаратов» (СМ-3)
L. Rozanov
МГТУ им. Н.Э. Баумана
Email: rozanov@bmstu.ru
старший преподаватель кафедры «Ракетные и импульсные системы» (СМ-6)
俄罗斯联邦N. Sidnyaev
МГТУ им. Н.Э. Баумана
Email: sidnyaev@bmstu.ru
д-р техн. наук, заведующий кафедрой «Высшая математика» (ФН-1)
俄罗斯联邦参考
- Oosthuizen R.R., du Buisson J.J., Botha G.F. Solid Fuel Ramjet (SFRJ) Propulsion for Artillery Projectile Applications — Concept Development Overview // 19th International Symposium of Ballistics (Interlaken , 7–11 May 2001). Thun, 2001. Pp. 403–410.
- Dionisio F., Stockenström A. Aerodynamic wind-tunnel test of a ramjet projectile // 19th International Symposium of Ballistics (Interlaken, 7–11 May 2001). Thun, 2001. Pp. 529–536.
- Gyff Fitchat. South African/US Cooperative Developments // International Armaments Technology Symposium & Exhibition (Wharton, 14–16 June 2004). URL: https://ndia.dtic. mil/2004/2004armaments.html (дата обращения: 17.02.2020).
- Roelof Oosthuizen, Andrew Whittaker. Artillery Ammunition. Answering topical questions // PARARI 2017: Australian Explosive Ordnance Safety Symposium (Canberra, 20–23 November 2017). URL: https://www.defenceconnect.com.au/events/item/parari-2017-australian-explosiveordnance-safety-symposium (Доступ с VPN; дата обращения: 17.02.2020).
- Poongsan debuts 155 mm ramjet propelled artillery shell concept [Электронный ресурс] // Defence & Security Intelligence & Analysis | Jane’s 360: сайт. URL: http://www.janes.com/article/63602/dx-korea-2016-poongsan-debuts-155-mm-ramjet-propelled-artillery-shell-concept (дата обращения: 17.02.2020).
- Kang, Shinjae. Design of Gun Launched Ramjet Propelled Artillery Shell with Inviscid Flow Assumption / Shinjae Kang, Chul Park, Woosuk Jung, Taesoo Kwon, Juhyeon Park, Sejin Kwon // Journal of the Korean Society of Propulsion Engineers. 2015. Vol. 19. No. 4. Pp. 52–60.
- Range Extension Form Ramjet Propelled Shell: pat. KR101609507B1 South Korea: IPC F42B 10/38, F02K 7/10, F42B 10/34. KR1020150029062A; filed 02.03.2015; publ. 05.04.2016.
- Inder Singh Bisht. S. Korean Firm Announces 155mm Extended-Range Shell for K9 Howitzer [Электронный ресурс] // The Defence Post : сайт.– URL: https://www.thedefensepost.com/2023/08/31/korean-155mm-shell-k9/ (дата обращения: 18.10.2023).
- Krishnan, Subramaniam. Solid Fuel Ramjet Combustor Design / Subramaniam Krishnan, Philmon George // Progress in Aerospace Sciences. 1998. Vol. 34. Pp. 219–256.
- Subramaniam Krishnan. Solid-Fuel Ramjet Assisted Gun-Launched Projectiles: An Overview // Proceedings of Fifth National Conference on Airbreathing and Aerospace Propulsion (Hyderabad, 21–23 December 2000). Bangalore, 2000. Pp. 52–64.
- Krishnan, Subramaniam. Design and Control of Solid-Fuel Ramjet for Pseudovacuum Trajectories / Subramaniam Krishnan, Philmon George, S. Sathyan // Journal of Propulsion and Power. 2000. Vol. 16. No. 5. Pp. 815–822.
- Dillion, Swaranjeet Singh. Design and Computational Analysis of Inlet Cone Section of Artillery Ramjet / Swaranjeet Singh Dillion, Kunika Band, Sandip Vishwakarma, Manav Katyal // Journal of Emerging Technologies and Innovative Research. April, 2021. Vol. 8. Issue 4. Pp. 535–543.
- Ben Sampson. Northrup Grumman completes solid fuel ramjet testing for artillery [Электронный ресурс] // Aerospace Testing International : сайт. URL: https://www.aerospacetestinginternational.com/news/weapons-testing/northrup-grummancompletes-
- solid-fuel-ramjet-testing-for-artillery.html (дата обращения: 17.02.2021).
- Dan Schere. Army conducts indirect-fire test of Boeing-Nammo projectile [Электронный ресурс] // Inside Defence : сайт. — URL: https://insidedefense.com/insider/army-conducts-indirect-fire-test-boeingnammo-projectile (дата обращения: 19.10.2023).
- Joseph Trevithick. Raytheon Is Developing A Ramjet Artillery Round For The Army’s New Super Howitzers [Электронный ресурс] // The
- Drive : сайт. — URL: https://www.thedrive.com/the-war-zone/33425/raytheon-is-developing-aramjet-artillery-round-for-the-armys-new-superhowitzers (дата обращения: 19.10.2023).
- Joseph Trevithick. This Is A Ramjet Artillery Shell Right As It’s Fired Out Of A Howitzer [Электронный ресурс] // The Drive: сайт. — URL: https://www.thedrive.com/thewar-zone/this-is-a-ramjet-artillery-shell-rightas-its-fired-out-of-a-howitzer (дата обращения: 19.10.2023).
- Projectile Propulsé Par Statoréacteur : pat.International: IPC F02K 7/18, F42B 10/40, F02K 9/18, F42B 10/64 / Christian Trouillot; Applicant/Owner: Cabinet Chaillot. №19/053475; filed 29.04.2019; publ. 07.11.2019.
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