The evolution of design of general purpose tracked tractors

Yulia S. Tsench; Ценч Юлия Сергеевна; Vyacheslav V. Kosenko; Косенко Вячеслав Владимирович; Vladimir V. Sharov; Шаров Владимир Васильевич

doi:10.17816/0321-4443-109676

The evolution of design of general purpose tracked tractors

Authors: Tsench Y.S.¹, Kosenko V.V.², Sharov V.V.³
Affiliations:
1. Federal Scientific Agroengineering Center VIM
2. Volgograd State Technical University
3. Museum of the History of Domestic Tractor Industry, MBEC “Sozvezdie”
Issue: Vol 89, No 3 (2022)
Pages: 155-166
Section: Hystory articles
URL: https://journal-vniispk.ru/0321-4443/article/view/125919
DOI: https://doi.org/10.17816/0321-4443-109676
ID: 125919

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Abstract

BACKGROUND: The most important task, that supported the formation of mechanized agriculture in the 1920–30s, was the creation of domestic tractor industry. The Stalingrad (Volgograd) Tractor Plant, being the flagship of this important industry for many years, played a fundamental role in its development.

AIMS: Justification of the relevance of the tractor industry creation within the process of the country industrialization. Analysis of the advantages of tracked tractors in comparison with wheeled tractors, justification of need for their mass production, determination of trends in the development of technical and operational characteristics of general purpose tracked tractors.

METHODS: Analysis of the evolution parameters of the design of tracked tractors, produced by Stalingrad (Volgograd) Tractor Plant throughout its operation years, analysis of technical specification of the ten highest performance tracked tractors, produced in different years by this enterprise.

RESULTS: It is found that the first tracked models were based on wheeled tractors, met the operation requirements in the soil and climate conditions of our country in the best way, as well as satisfied the need for the use of such machines for military purposes. The importance of using the energy saturation indicator as the main factor of the tractor performance at increased velocities is justified; the graph of behavior of this indicator, depending on production year, is given and trends of its further growth are noted.

CONCLUSIONS: The energy saturation of tracked tractors, produced by the plant for 55 years, has increased by 1.85 times, from 7.5 to 13.91 kW. The experience of Volgograd tractor manufacturers should be analyzed and used in order to identify patterns, trends and modern directions of the tractor technology development.

Keywords

Volgograd (Stalingrad) tractor plant, tracked tractor, engine, transmission, gear box, energy saturation, speed range

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About the authors

Yulia S. Tsench

Federal Scientific Agroengineering Center VIM

Author for correspondence.
Email: vimasp@mail.ru
ORCID iD: 0000-0002-3214-4725
SPIN-code: 5379-6131

Associate Professor, Dr. Sci. (Engin.), Professor of the General Science and Special Disciplines Department, Deputy Director for Educational and Editorial-Publishing Activity

Russian Federation, Moscow

Vyacheslav V. Kosenko

Volgograd State Technical University

Email: kosenko46@gmail.com
ORCID iD: 0000-0002-3996-6414
SPIN-code: 3616-4401

Cand. Sci. (Engin.), Senior Lecturer of the Technical Operation and Maintenance of Vehicles Department

Russian Federation, Volgograd

Vladimir V. Sharov

Museum of the History of Domestic Tractor Industry, MBEC “Sozvezdie”

Email: sharov_vv56@mail.ru
ORCID iD: 0000-0001-7659-9978
SPIN-code: 5601-0079

Cand. Sci. (Engin.), Methodist

Russian Federation, Novy Byt village, Chekhov district, Moscow region

References

Tsench YS. The main stages of agriculture mechanization in Russia. AMA, Agricultural Mechanization in Asia, Africa and Latin America. 2020;51(3):69-73.
Tsench YS. Scientific and Technological Potential as the Main Factor for Agricultural Mechanization Development. Agricultural Machinery and Technologies. 2022;16(2):4-13. (In Russ). doi: 10.22314/2073-7599-2022-16-2-4-13
Khrulkevich OA, Sharov VV. “STZ-NATI” – gusenichnyj traktor po imeni “NATIK”. Selskiy Mechanizator. 2008;(12):16–17. (In Russ).
Kosenko VV, Sharov VV, Gerasimov EO, Tjubaev AI. Jubilej “zheleznogo konja”. Selskiy Mechanizator. 2017;(7):24–25. (In Russ).
NATI. Otechestvennye sel’skohozjajstvennye traktory. Illjustrirovannaja istorija razvitija za 100 let. 1896–1996. Moscow: Vneshtorgizdat; 1996. (In Russ).
Kosenko VV, Sharov VV, Tsench YS. 70 years of the legendary DT-54 tractor. Machinery Technical Service. 2019;(3):196–209. (In Russ).
Kosenko VV, Sharov VV, Tsench YS. Tractor DT-75. Famous pendant. Machinery Technical Service. 2019(1): 216–226. (In Russ).
Kosenko VV, Sharov VV, Tsench YS. The 35th Anniversary of Production of the Dt-175s “Vol-Gar” Tractor. Machinery Technical Service. 2021;(1):163–177. (In Russ). doi: 10.22314/2618-8287-2021-59-1-163-177
Kosenko VV. VT-100 – pervyj v novom semejstve traktorov VgTZ [Internet]. Available from: https://techstory.ru/fin/85_vt100_2020.htm
Tsench YS. Stanovlenie i razvitie nauchno-tekhnicheskogo potentsiala mekhanizatsii sel’skogo khozyaistva Rossii [dissertation]. Moscow: Federal Scientific Agroengineering Center VIM; 2021. Available from: https://elibrary.ru/item.asp?id=49209607 (In Russ).
Godzhaev ZA, Shevtsov VG, Lavrov AV, et al. Strategy of russian agricultural machinery modernization until 2030 (forecast). Machinery Technical Service. 2019;(4):220–229. (In Russ).
Sharov VV, Tsench YS. Prioritety Rossii v mirovom traktorostroenii. Proceedings of the International science conference “Mezhdunarodnaya nauchnaya konferentsiya, posvyashchennoi 175-letiyu K.A. Timiryazeva”; 2018 Dec 06–08; Moscow: Rossiiskii gosudarstvennyi agrarnyi universitet - MSKhA im. K.A. Timiryazeva; 2019. (In Russ).
Kosenko VV, Sharov VV, Trench YS. Main designers of the volgogradsky tractors. to the 90th anniversary of STZ-VGTZ. The History of Science and Engineering. 2020;(8):85–97. (In Russ).