DOI: https://doi.org/10.32515/2664-262X.2023.7(38).2.180-189

Study of the Stress-Deformation State of the Bottom of the Semi-Trailer Truck Body Depending on the Placement of the Jumpers

Ivan Hevko, Yuriy Pyndus, Mykhailo Levkovich, Volodymyr Teslia, Andriy Gupka, Maria Sipravska

About the Authors

Ivan Hevko, Professor, Doctor in Technics (Doctor of Technic Sciences), Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, e-mail: gevkoivan1@ukr.net, ORCID ID: 0000-0001-5170-0857

Yuriy Pyndus, PhD in Technics (Candidate of Technics Sciences), Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, ORCID ID: 0000-0003-0887-2762

Mykhailo Levkovich, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, ORCID ID: 0000-0002-6793-8736

Volodymyr Teslia, PhD in Technics (Candidate of Technics Sciences), Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, e-mail: volodymyr_teslya@ukr.net, ORCID ID: 0000-0002-7865-4712

Andriy Gupka, PhD in Technics (Candidate of Technics Sciences), Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, ORCID ID: 0000-0002-7565-5664

Maria Sipravska, assistent, Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine, ORCID ID: 0000-0001-6758-6593

Abstract

The purpose of this article is to study the influence of the geometric parameters of the elements of the bottom of the body of a truck semi-trailer on its stress-strain state. To solve this problem, a combination of analytical, numerical and experimental methods is used to investigate the stress-strain state of the structure in car bodies. With help of the stress-strain method, a comprehensive study of the bodies of cargo semi-trailers was carried out, which led to the development of innovative engineering solutions aimed at increasing their technical and economic indicators. This was achieved by analyzing the influence of various factors on the structure and design features. The research results were obtained on the basis of the stress-strain state (SST) using advanced methods of engineering analysis, in particular, using the specialized SolidWorks software complex on a CAD model representing the body of a semi-trailer truck. The results obtained after conducting these studies serve as the basis for making engineering decisions aimed at improving the design of the truck body.

Keywords

truck, semi-trailer, construction, stress-strain state, geometric parameters

Full Text:

PDF

References

1. Liashuk, O.L., Hevko, I.B., Levkovych, M.H., Vovk, Yu.Ia. Stashkiv, M.Ia. & Kapskyi, D.V. (2021). Doslidzhennia napruzheno-deformovanoho stanu dna kuzova napivprychepa vantazhnoho avtomobilia [Research of the stressed-deformed state of the bottom of the truck semi-trailer]. Naukovyi visnyk Khersonskoi derzhavnoi morskoi akademii: naukovyi zhurnal – Scientific bulletin of the Kherson State Maritime Academy: scientific journal, 1 (24), 93-103 [in Ukrainian].

2. K Vamshi Krishna, K Yugandhar Reddy, K Venugopal, & K Ravi (2017). Design And Analysis of Truck Body for Increasing the Payload Capacity. IOP Conf. Series: Materials Science and Engineering, 263, 062065 [in English].

3. Sankararao Vinjavarapu1, Unnam Koteswararao2, V. Lakshmi Narayana. (2012). Design Optimization of Tipper Truck Body. International Journal of Engineering Research and Development, Vol. 4, Issue 9 (November 2012), pp. 11-20 [in English].

4. Hevko, Iv.B., Rohatynskyi, R.M., Liashuk, O.L. & Levkovych, M.H. (2022). Teslia Strukturnyi syntez kuzova napivprychepa vantazhnoho avtomobilia z tekhniko-ekonomichnym obgruntuvanniam [Structural synthesis of the truck semi-trailer body with technical and economic justification]. Zbirnyk naukovykh prats. Tsentralnourainskyi naukovyi visnyk – Central Ukrainian Scientific Bulletin. Technical Sciences, Issue № 5(36), pert II, 186-194 [in Ukrainian].

5. Rohan Y Garud, Shahid C Tamboli, Dr. Anand Pandey (2018). Structural Analysis of Automotive Chassis. Design Modification and Optimization International Journal of Applied Engineering Research , Vol. 13, Number 11, pp. 9887-9892 [in English].

6. B. Raghavendra Prasad Nayak, Ch. Sambaiah. (2013). Design and Analysis of Dumped Body. International Journal of Mechanical and Industrial Engineering. Vol. 2, Issue 3, 2231-6477 [in English].

7. Hevko, Iv.B., Rohatynskyi, R.M., Liashuk, O.L., Levkovych, M.H. & Teslia, V.O. (2022). Tekhniko-ekonomichne obgruntuvannia vyhotovlennia kuzova napivprychepa vantazhnoho avtomobilia [Tekhniko-ekonomichne obgruntuvannia vyhotovlennia kuzova napivprychepa vantazhnoho avtomobilia]. Processes, machines and equipment of agro-industrial production: problems of theory and practice: Mizhnarodna naukovo-praktychna konferentsia (29-30 veresnia 2022, Ternopil) – International Science and Practice Conf. (pp.171-172) [in Ukrainian].

8. N. Nagendra Kumar, B. Jithendra, Malaga. Anil Kumar . (2013). Optimization of Weight and Stress Reduction of Dump For Automotive Vehicles . International Journal of Engineering Research and Development,Vol. 2, Issue 10 (October 2013), pp.1884 - 1893 [in English].

9. Ramacharan, C., Prashanth, A.S. (2015). Design and analysis of Dump Truck Floor Bed . International Journal of Engineering Research and Development. Vol. 3, Issue 06, 2015. Pp. 706-710 [in English].

10. Ludchenko, O.A. (2007). Tekhnichna ekspluatatsiia i obsluhovuvannia avtomobiliv. Tekhnolohiia: pidruchnyk [Technical operation and maintenance of cars. Technology]. Kyiv: Znannia-Pres [in Ukrainian].

11. Buriennikov, Yu.A., Kashkanov, A.A. & Rebedailo, V.M. (2009). Rukhomyi sklad avtomobilnoho transportu: robochi protsesy ta elementy rozrakhunku [Road transport rolling stock: work processes and calculation elements] . Vinnytsia: VNTU [in Ukrainian].

12. KUANG-HUA CHANG (2020). Motion Simulation and Mechanism Design with SOLIDWORKS Motion . English [in English].

13. Dubenets, V.H., Khilchevskyi, V.V. & Savchenko, O.V. (2007). Osnovy metodu skinchennykh elementiv [Fundamentals of the finite element method]. Chernihiv: ChDTU [in Ukrainian].

Citations

  1. Дослідження напружено-деформованого стану дна кузова напівпричепа вантажного автомобіля / О.Л. Ляшук, та ін. Науковий вісник Херсонської державної морської академії: науковий журнал. 2021. № 1 (24). С 93-103.
  2. K Vamshi Krishna, K Yugandhar Reddy, K Venugopal, and K Ravi. Design And Analysis of Truck Body for Increasing the Payload Capacity. IOP Conf. Series: Materials Science and Engineering. 2017. 263. 062065.
  3. Sankararao Vinjavarapu1, Unnam Koteswararao2, V. Lakshmi Narayana. Design Optimization of Tipper Truck Body. International Journal of Engineering Research and Development. 2012, Vol. 4, Issue 9 (November 2012), Pp. 11-20.
  4. Структурний синтез кузова напівпричепа вантажного автомобіля з техніко-економічним обґрунтуванням / Ів.Б. Гевко та ін. Центральноураїнський науковий вісник. Технічні науки. 2022. Вип. 5(36), ч. II. С. 186-194.
  5. Rohan Y Garud, Shahid C Tamboli, Dr. Anand Pandey Structural Analysis of Automotive Chassis. Design Modification and Optimization International Journal of Applied Engineering Research, 2018. Vol. 13, Number 11. pp. 9887-9892.
  6. B. Raghavendra Prasad Nayak, Ch. Sambaiah . Design and Analysis of Dumped Body. International Journal of Mechanical and Industrial Engineering. 2013. Vol. 2, Issue 3 . 2231-6477.
  7. Техніко-економічне обґрунтування виготовлення кузова напівпричепа вантажного автомобіля / Ів.Б. Гевко та ін. Процеси, машини та обладнання агропромислового виробництва: проблеми теорії та практики : матеріали Міжнар. наук.-практ. кон., 29-30 вересня 2022 р., Тернопіль, 2022. С. 171-172.
  8. N. Nagendra Kumar, B. Jithendra, Malaga. Anil Kumar . Optimization of Weight and Stress Reduction of Dump For Automotive Vehicles . International Journal of Engineering Research and Development. 2013, Vol. 2, Issue 10 (October 2013), pp.1884 - 1893.
  9. Ramacharan C., Prashanth A.S. Design and analysis of Dump Truck Floor Bed . International Journal of Engineering Research and Development. 2015, Vol. 3, Issue 06, 2015. Pp. 706-710.
  10. Лудченко О.А. Технічна експлуатація і обслуговування автомобілів. Технологія: підр. Київ: Знання-Прес, 2007. 527с.
  11. Бурєнніков Ю.А., Кашканов А.А., Ребедайло В.М. Рухомий склад автомобільного транспорту: робочі процеси та елементи розрахунку : навч. посіб. Вінниця: ВНТУ. 2009. С. 267.
  12. KUANG-HUA CHANG . Motion Simulation and Mechanism Design with SOLIDWORKS Motion . English, 2020.
  13. Дубенець В.Г., Хільчевський В.В., Савченко О.В. Основи методу скінченних елементів: навч. посіб. Чернігів: ЧДТУ, 2007. 288 с.
Copyright (c) 2023 Ivan Hevko, Yuriy Pyndus, Mykhailo Levkovich, Volodymyr Teslia, Andriy Gupka, Maria Sipravska