Design of Explosive Trains of Fuzes
This paper presents the examples of fuze explosive trains designing methods, on the example of 25-mm ammunition fuze. There have been described two, possible to choose, design methods for explosive trains of fuzes. The first method relies on existing solutions using the serial-produced fuzes. The s...
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Military University of Technology, Warsaw, Poland
2015-06-01
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doaj-4828a03b0e5c49a79328653f1e6147c62020-11-25T01:06:31ZengMilitary University of Technology, Warsaw, PolandProblemy Mechatroniki2081-58912015-06-016211312210.5604/20815891.115778301.3001.0002.5159 Design of Explosive Trains of FuzesGrzegorz JĄCZEK0Józef GACEK1Eva FRIS2Zakłady Metalowe DEZAMET S.A., Nowa Dęba, PolskaInstytut Techniki Uzbrojenia, Wydział Mechatroniki i Lotnictwa, Wojskowa Akademia Techniczna, Warszawa, PolskaNAMMO Raufoss AS, Norwegia This paper presents the examples of fuze explosive trains designing methods, on the example of 25-mm ammunition fuze. There have been described two, possible to choose, design methods for explosive trains of fuzes. The first method relies on existing solutions using the serial-produced fuzes. The second one is to develop a completely new design explosive train. This paper focuses on the second method of design of explosive trains which can be implemented in two different ways. The first way is very time consuming, long-lasting and needs an experimental work to be done. In this method, we obtained the desired result by „trial and error method”. Second method uses mutually interrelated analytical calculation methods, computer simulations, experiments, and tests. In the case of this explosive train of fuze for 25-mm ammunition, the second method for design was used. As a result of that, the operating principle of explosive train of this fuze and subsequent stages of work on its components was described. The results of experimental tests and live tests on proving ground with the use of 25-mm ammunition was described as well. http://publisherspanel.com/gicid/01.3001.0002.5159mechanicsfuzeexplosive train of fuzeinitiatorboosterexplosives |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Grzegorz JĄCZEK Józef GACEK Eva FRIS |
spellingShingle |
Grzegorz JĄCZEK Józef GACEK Eva FRIS Design of Explosive Trains of Fuzes Problemy Mechatroniki mechanics fuze explosive train of fuze initiator booster explosives |
author_facet |
Grzegorz JĄCZEK Józef GACEK Eva FRIS |
author_sort |
Grzegorz JĄCZEK |
title |
Design of Explosive Trains of Fuzes |
title_short |
Design of Explosive Trains of Fuzes |
title_full |
Design of Explosive Trains of Fuzes |
title_fullStr |
Design of Explosive Trains of Fuzes |
title_full_unstemmed |
Design of Explosive Trains of Fuzes |
title_sort |
design of explosive trains of fuzes |
publisher |
Military University of Technology, Warsaw, Poland |
series |
Problemy Mechatroniki |
issn |
2081-5891 |
publishDate |
2015-06-01 |
description |
This paper presents the examples of fuze explosive trains designing methods, on the example of 25-mm ammunition fuze. There have been described two, possible to choose, design methods for explosive trains of fuzes. The first method relies on existing solutions using the serial-produced fuzes. The second one is to develop a completely new design explosive train. This paper focuses on the second method of design of explosive trains which can be implemented in two different ways. The first way is very time consuming, long-lasting and needs an experimental work to be done. In this method, we obtained the desired result by „trial and error method”. Second method uses mutually interrelated analytical calculation methods, computer simulations, experiments, and tests. In the case of this explosive train of fuze for 25-mm ammunition, the second method for design was used. As a result of that, the operating principle of explosive train of this fuze and subsequent stages of work on its components was described. The results of experimental tests and live tests on proving ground with the use of 25-mm ammunition was described as well.
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topic |
mechanics fuze explosive train of fuze initiator booster explosives |
url |
http://publisherspanel.com/gicid/01.3001.0002.5159 |
work_keys_str_mv |
AT grzegorzjaczek designofexplosivetrainsoffuzes AT jozefgacek designofexplosivetrainsoffuzes AT evafris designofexplosivetrainsoffuzes |
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1725189807748939776 |