THE CONDITION OF THE VEHICLE'S STABILITY TO OVERTURNING ON A SURFACE WITH A LATERAL SLOPE WHEN FIRING FROM THE WEAPON

Oleksandr Bilenko; Serhii Shabatura

doi:10.33405/2078-7480/2024/4/91/324061

Authors

Oleksandr Bilenko
Serhii Shabatura

DOI:

https://doi.org/10.33405/2078-7480/2024/4/91/324061

Keywords:

combat vehicle, resistance to overturning, recoil of weapons, state of vehicle stability, stability coefficient, overturning moment

Abstract

The issue of evaluating vehicle stability on a side-sloped surface during weapon firing has been considered. A mathematical expression for determining the condition of vehicle stability on a side-sloped surface while firing weapons has been improved. Unlike known expressions, it takes into account the impact of the recoil force of weapons and the overturning and stabilizing moments it generates. A stability coefficient and a relative stability coefficient are proposed, enabling the assessment of the stability margin against overturning of a combat vehicle during weapon firing, as well as decision-making regarding its operational feasibility under various conditions or the use of more powerful weapons with correspondingly greater recoil forces.

References

Temerland military solutions. Retrieved from: https://temerland.com/rishennya (accessed 10 September 2024) [in English].

Viiskovyi bezpilotnyi nazemnyi transport [Military unmanned ground transportation]. Retrieved from: https://ua.satuav.com/unmanned-robot/military-unmanned-ground-vehicle.html (accessed 10 September 2024) [in Ukrainian].

THeMIS – estonskyi boiovyi robot za yakym poliuie rosiia [Estonian combat robot hunted by Russia]. Retrieved from: https://surli.cc/xpmont (accessed 10 September 2024) [in Ukrainian].

Strashnyi I. L., Horbunov A. P. (2014). Ekspluatatsiini vlastyvosti avtomobiliv [Operational properties of vehicles]. Kharkiv : Akad. VV MVS Ukrainy [in Ukrainian].

Kriukov O. M. et al. (2019). Modeling of the process of the shot based on the numerical solution of the equations of internal ballistics. Eastern-European Journal of Enterprise Technologies, no. 1/5 (97), pp. 40–46. Retrieved from: https://journals.uran.ua (accessed 10 September 2024) [in English].

Bilenko O. I., Pashchenko V. V. (2011). Analys zadach balistychnoho projektyvannia kinetychnoi zbroi nesmertelnoi dii [Analysis of the Problems of Ballistic Design of Non-Lethal Kinetic Weapons]. Zbirnyk naukovykh prats Akademii vnutrishnikh viisk MVS Ukrainy. Kharkiv : Akad. VV MVS Ukrainy, vol. 1, pp. 8–11 [in Ukrainian].

Bilenko O. I., Afanasiev V. V. (2007). Vplyv parametriv zariadzhannia na pochatkovu shvydkist kuli [The effect of charging parameters on the initial velocity of a bullet]. Visnyk Natsionalnoho tekhnichnoho universytetu "KhPI", vol. 11, pp. 33–37 [in Ukrainian].

Volkov V. P., Vilskyi H. B. (2015). Teoriia rukhu avtomobilia [Theory of car movement]. Sumy : Universytetska knyha [in Ukrainian].

Sakhno V. P., Marchuk R. M., Onyshchuk V. P., Prydiuk V. M. (2010). Do vyznachennia pokaznykiv manevrenosti i stiikosti rukhu avtopoizda konteinerovoza [To determine the maneuverability and stability indicators of a container truck train]. Visnyk derzhavnoho tekhnolohichnoho universytetu, vol. 2 (53), pp. 127‒134 [in Ukrainian].

Levkovych M. H., Bosiuk P. V., Klendii V. M. (2016). Teoriia ekspluatatsiinykh vlastyvostei avtomobiliv [Theory of car performance properties]. Ternopil : TNTUIP [in Ukrainian].

Podryhalo M. A., Sheludchenko V. V. (2015). Nove v teorii ekspluatatsiinykh vlastyvostei avtomobiliv ta traktoriv [New in the theory of performance properties of cars and tractors]. Sumy : SNAU [in Ukrainian].

Poliakov A. P., Hrechaniuk M. S., Korobov S. S. (2015). Poperechna stiikist sidlovoho avtopoizda pry dii zovnishnikh zburen [Transverse stability of a saddle train under the influence of external disturbances]. Vinnytsia : VNTU [in Ukrainian].

Artiukh O. M., Dudarenko O. V., Kuzmin V. V., Sosyk A. Iu., Shcherbyna A. V. (2021). Praktychni zaniattia z doslidzhennia ta vyprobuvannia tekhnichnykh system [Practical classes on research and testing of technical systems]. Zaporizhzhia : NU "Zaporizka politekhnika" [in Ukrainian].

Bashynskyi A. L. (2017). Metod otsinky poperechnoi stiikosti avtomobilia pid chas naizdu na pereshkodu za umovy zcheplennia kolis [A method for assessing the transverse stability of a vehicle when it hits an obstacle with wheel traction]. Zbirnyk naukovykh prats Kharkivskoho natsionalnoho avtomobilno-dorozhnoho universytetu. Kharkiv : KHNADU, is. 40, pp. 88‒93 [in Ukrainian].

Bilichenko V. V., Dobrovolskyi O. L., Smirnov Ye. V., Ohnevyi V. O. (2017). Avtomobili. Teoriia ekspluatatsiinykh vlastyvostei [Automobiles. The theory of performance properties]. Vinnytsia : VNTU [in Ukrainian].

Sakhno V. P., Poliakov V. M., Kostenko A. V., Sakno O. P., Lukichov O. V., Petrov O. V., Moisia D. L. (2015). Ekspluatatsiini vlastyvosti avtotransportnykh zasobiv. Chastyna 3. Manevrenist. Kerovanist. Stiikist [Operational properties of motor vehicles. Part 3. Maneuverability. Controllability. Stability]. Donetsk : Landon XXI [in Ukrainian].

Kalchenko V. V., Venzheha V. I., Pasov H. V. (2010). Teoriia rukhu avtomobilia [Theory of car movement]. Chernihiv : ChNTU [in Ukrainian].

THE CONDITION OF THE VEHICLE'S STABILITY TO OVERTURNING ON A SURFACE WITH A LATERAL SLOPE WHEN FIRING FROM THE WEAPON

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License

Language