№ 1 (17) – 2022

FORECASTING EVALUATIONS OF THE EFFICIENCY OF THE SYSTEM OF PROVIDING THE SURVIVAL OF WEAPON SAMPLES

https://doi.org/10.37129/2313-7509.2022.17.93-100
 
завантаження B. Demianchuk, Doсtor of Technical Sciences, Professor

 

завантаження O. Suhin

 

завантаження О. Malinovskiy
завантаження O. Kuprinyuk
 
 

Cite in the List of bibliographic references (DSTU 8302:2015)

Дем'янчук Б. О., Сухін О. В., Малиновський О. А., Купринюк О. П. Прогнозні оцінки ефективності системи забезпечення живучості зразків озброєння.Збірник наукових праць Військової академії (м. Одеса).2022. Вип. 1(17). С. 93-100. https://doi.org/10.37129/2313-7509.2022.17.93-100 

 

Аbstract

The dependence of the effectiveness of ensuring the survivability of weapons and military equipment on the levels of intensity of resistance to various factors is substantiated. These factors characterize, on the one hand, the capabilities of technical means of reconnaissance and fire action of the enemy, on the other hand, the capabilities of forces and means of counteracting him. The latter will help preserve the functions of weapons, during the action of the enemy, and the restoration of his samples, in case of combat damage.
These factors in a generalized form should include a set of: means of reconnaissance and fire destruction of weapons samples by the enemy anddisguising means of operation of weapons samples, radio-absorbingmaterials for camouflage weapons model, significantly reduce its visibility.
Requirements and possibilities of effective protection of armament with the help of radio-absorbing polymeric ferrite materials of microwave and infrared wave ranges from radar means and thermal imagers of technical reconnaissance by the enemy are substantiated.
Determined: the dependence of the rate of preservation of weapons functions, in the case of radar camouflage, the range of their detection by enemy technical means, the dependence of the parameters of the forecast trend of change over time.
Determining the predictive evaluation of the effectiveness of the system to ensure the survivability of samples helps, first, to take timely measures for their proper camouflage, to eliminate the possibility of technical means of enemy reconnaissance to detect these samples and damage by fire, and secondly, helps to intensify efforts in order to accelerate the recovery of the injured during the battle.

Кeywords

armaments and military equipment, forecast estimates of survivability, means of technical intelligence, preservation of functions and restoration of weapons.
 

List of bibliographic references

  1. Vorobiov О.,Savchenko V.,Sotnikov A.,Tarshin, V., Kurtseitov T. Development of radioisotopic-plasma technology for the protection of radio electronic means from powerful electromagnetic radiation. Eastern-European Journal of Enterprise Technologies. 2017. Vol. 1, 5 (85). P. 16–22. https://doi.org/10.15587/1729-4061.2017.91642
  2. Betzalel N, Feldman Y, Ishai P. B. The Modeling of the Absorbance of Sub-THz Radiation by Human Skin. IEEE Trans Terahertz Sci Technol. 2017. № 7(5). P. 521-528. DOI: https://doi.org/10.1109/TTHZ.2017.2736345
  3. Kreikebaum J. M., Dove A., Livingston W., Kim E., Siddiqi I. Optimization of infrared and magnetic shielding of superconducting TiN and Al coplanar microwave resonators. Superconductor Science and Technology. 2016. Vol. 29, 10. DOI: https://doi.org/10.48550/arXiv.1608.06273
  4. Спосіб електромагнітного екранування приміщень з електронною апаратурою : пат. 105113 Україна. № а201302261; заявл. 22.02.2013; опубл. 10.04.2014, Бюл. № 7.
  5. Спосіб одержання магнетиту : пат. 75749 Україна. № 20040604164; заявл. 01.06.2004; опубл. 15.05.2006, Бюл. № 5.
  6. Гуляк О. В., Дем’янчук Б. О., Сотніков О. М. Вибір способу збереження функції пункту бойового управління. Збірник наукових праць ХНУПС ім. Івана Кожедуба. 2017, №2 (51). С. 16–22.
 
 
 

References

  1. Vorobiov, О.,Savchenko, V.,Sotnikov, A.,Tarshin, V., & Kurtseitov, T. (2017). Development of radioisotopic-plasma technology for the protection of radio electronic means from powerful electromagnetic radiation. Eastern-European Journal of Enterprise Technologies, 1, 5 (85), 16–22. https://doi.org/10.15587/1729-4061.2017.91642 [in English].
  2. Betzalel, N, Feldman, Y, & Ishai, P. B. (2017). The Modeling of the Absorbance of Sub-THz Radiation by Human Skin. IEEE Trans Terahertz Sci Technol, 7(5), 521-528. DOI: https://doi.org/10.1109/TTHZ.2017.2736345 [in English].
  3. Kreikebaum, J. M., Dove, A., Livingston, W., Kim, E., & Siddiqi, I. (2016). Optimization of infrared and magnetic shielding of superconducting TiN and Al coplanar microwave resonators. Superconductor Science and Technology, 29, 10. DOI: https://doi.org/10.48550/arXiv.1608.06273 [in English].
  4. Method of electromagnetic shielding of premises with electronic equipment (Patent 105113). (2006). [in Ukrainian].
  5. A method of producing magnetite (Patetnt 75749). (2006). [in Ukrainian].
  6. Huliak, O. V., Demianchuk, B. O., & Sotnikov, O. M. (2017). The choice of the method of preserving the function of the combat control point. Collection of scientific works of KhNUPS named after Ivan Kozhedub, 2 (51), 16- 22. [in Ukrainian].
Copyright 2014 17.93-100 (eng) А. Розроблено ІОЦ ВА
Templates Joomla 1.7 by Wordpress themes free