UDK 631.312
DOI: 10.15507/2658-4123.030.202004.699-710
Assessment of Durability and Service Life of Two-Layer Hardened Earth Cutters in Various Soil Conditions
Sergey A. Sidorov
Head of the Laboratory of the Elementary Base of Tillage Machines, Federal Scientific Agroengineering Center VIM (5, 1st Institutskiy Proyezd, Moscow 109428, Russian Federation), D.Sc. (Engineering), Researcher ID: AAN-6236-2020, ORCID: https://orcid.org/0000-0002-7638-2020
Denis A. Mironov
Senior Researcher of the Laboratory of the Elementary Base of Tillage Machines, Federal Scientific Agroengineering Center VIM (5, 1st Institutskiy Proyezd, Moscow 109428, Russian Federation), Cand.Sc. (Engineering), ORCID: https://orcid.org/0000-0001-9380-2026, This email address is being protected from spambots. You need JavaScript enabled to view it.
Yuliya S. Tsench
Deputy Director for Education and Editorial and Publishing Activities, Federal Scientific Agroengineering Center VIM (5, 1st Institutskiy Proyezd, Moscow 109428, Russian Federation), Cand.Sc. (Pedagogy), Researcher ID: H-5855-2018, ORCID: https://orcid.org/0000-0002-3214-4725, This email address is being protected from spambots. You need JavaScript enabled to view it.
Anastasiya V. Mironova
Researcher of the Laboratory of the Elementary Base of Tillage Machines, Federal Scientific Agroengineering Center VIM (5, 1st Institutskiy Proyezd, Moscow 109428, Russian Federation), ORCID: https://orcid.org/0000-0003-1390-1812, This email address is being protected from spambots. You need JavaScript enabled to view it.
Introduction. The earth cutter resource depends on the characteristics of the materials they are made from. In particular, the important parameters that directly affect the tillage tool parts efficiency and durability are the values and ratios of the coefficients of relative wear resistance of the two-layer parts materials, as a rule of the hardened deposited layer and the base material (steel). It is established that the characteristics of the relative wear resistance of the materials for earth cutter parts vary depending on the treated soil properties. The objectives of the study are to consider the influence of soil conditions on the values of the relative wear resistance coefficients of two-layer earth cutter part materials and to carry out a comparative assessment of their resource and use efficiency.
Materials and Methods. The authors gave a generalized dependence of the wear proportionality to the existing specific pressures values. The characteristics of soil abrasion were given. The scientific substantiation of the changes in the characteristics of the materials wear resistance at various values of specific pressures was given.
Results. The results of the operational resource tests and the studies of two-layer and monometallic earth cutters are presented. The influences of the values of the operating specific pressures on the coefficients of the relative wear resistance of the materials for the tillage machine parts are determined.
Discussion and Conclusion. The authors have found out that the coefficients of relative wear resistance of materials are not constant, but vary depending on the current surface specific pressures. The correlation of the specific pressure values with the parameters of the tillage operation, in particular with the furrow slice hardness was established. It has been found that while increasing the cultivated soil hardness, the coefficients of various materials relative wear resistance get closer to each other. The difference varies from 1.80 to1.85 times.
Keywords: blade earth cutters, two-layer earth cutters, soil conditions, wear resistance, transition coefficient, soil wearing capacity
For citation: Sidorov S.A., Mironov D.A., Tsench Y.S., et al. Assessment of Durability and Service Life of Two-Layer Hardened Earth Cutters in Various Soil Conditions. Inzhenerernyye tekhnologii i sistemy = Engineering Technologies and Systems. 2020; 30(4):699-710. DOI: https://doi.org/10.15507/2658-4123.030.202004.699-710
Contribution of the authors: S. A. Sidorov – formation of the basic concept, development of calculation formulas, description of the basic research results, participation in the formation of conclusions; D. A. Mironov – fabrication and strengthening of pilot batches of working body samples, organization and conduct of field comparative operational tests, evaluation and analysis of operational test results; Y. S. Tsench – participation in the formation of research objectives, participation in experimental research, discussion of research results, participation in text writing; A. V. Mironova – participation in experimental research, participation in preparation and design of the text, participation in the analysis of research results.
All authors have read and approved the final manuscript.
Received 02.06.2020; revised 10.09.2020; published online 30.12.2020
REFERENCES
1. Bernshteyn D.B. [Abrasive Blade Wear and Tear and Plough Performance]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 2002; (6):39-42. Available at: http://www.avtomash.ru/gur/2002/200206.htm (accessed 06.11.2020). (In Russ.)
2. Sidorov S.A., Mironov D.A., Khoroshenkov V.K., et al. Surfacing Methods for Increasing the Service Life of Rapidly Wearing Working Tools of Agricultural Machines. Welding International. 2016; 30(10):808-812. (In Eng.) DOI: https://doi.org/10.1080/09507116.2016.1148408
3. Surilov V.S., Ovchinnikov V.A. [Study of Wear Resistance of the Two-Layer and Homogeneous Disks of Shakers]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1970; (8):28-29. (In Russ.)
4. Tkachev V.N., Kogan I.L. [Increasing the Durability of Soil Tillage Machine Disc Working Elements]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1969; (8):32-33. (In Russ.)
5. Kolesov V.G. [On Increasing the Durability of Parts That Wear Out with Friction against the Ground, and a Rational Choice of Alloys for Their Surfacing]. Vestnik mashinostroeniya = Russian Federation Engineering Research. 1961; (9):22-26. (In Russ.)
6. Rabinovich A.Sh. [Elementary Blade Theory and Design Methods for Self-Sharpening Soil-Cutting Blades]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1961; (10):33-36. (In Russ.)
7. Rozenbaum A.N. [Application of Two-Layer Rolled Products for Self-Sharpening Soil-Cutting Parts]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1966; (10):27-29. (In Russ.)
8. Tenenbaum M.M. [About the Method of Calculating the Durability of Wearing Parts of Agricultural Machinery, Taking Into Account the Nonlinearity of Wear Dynamics]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1970; (9):29-31. (In Russ.)
9. Sidorov S.A. [Methods of Calculation for Wear Resistance of Mono and Bimetallic Soil-Cutting Working Bodies]. Traktory i selskohozyaystvennyie mashiny = Tractors and Agricultural Machines. 2003; (12):35-39. Available at: http://www.avtomash.ru/gur/2003/200312.htm (accessed 06.11.2020). (In Russ.)
10. Izmailov A.Yu., Sidorov S.A., Lobachevsky Ya.P., et al. Scientific Principles of Raising Wear Resistance in Working Organs of Soil Tillage Machinery. Vestnik Rossiyskoy akademii selskokhozyaystvennykh nauk = Bulletin of Russian Academy of Agricultural Sciences. 2012; (3):5-7. (In Russ.)
11. Bernshteyn D.B. [Evaluation of the Possibility of Self-Sharpening of Two-Layer Soil-Cutting Elements at Abrasive Wear]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1985; (6):31-33. (In Russ.)
12. Vinokurov V.N. [Study of the Wearing Capacity of the Forest Area Soils]. Traktory i selkhozmashiny = Tractors and Agricultural Machinery. 1977; (8):20-22. (In Russ.)
13. Mudarisov S.G., Gabitov I.I., Lobachevsky Y.P., et al. Modeling the Technological Process of Tillage. Soil & Tillage Research. 2019; 190:70-77. (In Eng.) DOI: https://doi.org/10.1016/j.still.2018.12.004
14. Erokhin M.N., Novikov V.S., Petrovskiy D.I. Predicting Resource of Tillers Working Organs. Selskiy Mekhanizator = Rural Mechanic. 2015; (11):6-9. Available at: http://selmech.msk.ru/1115.html (accessed 06.11.2020). (In Russ.)
15. Yerokhin M.N., Novikov V.S., Petrovskiy D.I. [On the Issue of Import Substitution of Working Bodies of Foreign Tillage Machines]. Trudy GOSNITI = Works of GOSNITI. 2015; 121:206-212. (In Russ.)
16. Sidorov S.A., Khoroshenkov V.K., Lobachevsky Y.P., et al. Improving Wear Resistance of Agricultural Machine Components by Applying Hard-Alloy Thick-Layer Coatings Using Plasma Surfacing. Metallurgist. 2017; 60:1290-1294. (In Eng.) DOI: https://doi.org/10.1007/s11015-017-0443-7
17. Sidorov S.A., Lobachevskii Ya.P., Khoroshenkov V.K., et al. Wear and Breakage Resistance of Hard Alloy Coatings Strengthened with Tungsten Carbide. Metallurgist. 2018; 61:1023-1028. (In Eng.) DOI: https://doi.org/10.1007/s11015-018-0602-5
18. Izmaylov A.Yu., Sidorov S.A., Khoroshenkov V.K., et al. Novel High-Alloy Boron-Containing Steels for Driven Elements of Tilling Machines. Metal Science and Heat Treatment. 2017; 59:208-210. (In Eng.) DOI: https://doi.org/10.1007/s11041-017-0130-0
19. Ryabov V.V., Motovilina G.D., Khlusova E.I., et al. Study of the Structure of New Wear-Resistant Steels for Agricultural Machinery Components After Operational Tests. Metallurgist. 2016; 60:839-844. (In Eng.) DOI: https://doi.org/10.1007/s11015-016-0374-8
20. Lobachevsky Y.P., Aulov V.F., Ishkov A.V., et al. Method for Preparing an Efficient Master Alloy for Steel Boriding. Metallurgist. 2019; 62:986-993. (In Eng.) DOI: https://doi.org/10.1007/s11015-019-00731-z
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