Abstract and keywords
Abstract (English):
Main strategies for mathematical modeling of road harrow static tool wear in operating conditions are viewed in the article. An analysis of the effect of asphalt concrete mechanical properties on the cutting process is carried out, monitoring systems for the condition of road surfaces and the state of the cutting tool are distinguished

Keywords:
harrow static tooling, wear, road construction equipment
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References

1. Kostel'ov M.P. Dolgovremennaya rovnost' dorozhnyh pokrytiy. // Dorozhnaya Tehnika. - 2005. №7.

2. Shestopalov K.V. Dorozhnye frezy // Osnovnye Sredstva. -1999. - №10

3. Vetrichelvan G, Sundaram S, Kumaran S, Velmurugan P // An investigation of tool wear using acoustic emission and genetic algorithm. J Vib Control. -21. - pp.3061-3066.

4. Bhattacharyya P, Sengupta D, Mukhopadhyay S (2007) Cutting force-based real-time estimation of tool wear in face milling using a combination of signal processing techniques. Mech Syst Signal Process. -Vol.21. №6. -rr.2665-2683

5. Liu C, Wang G, Li Z (2015) Incremental learning for online tool condition monitoring using ellipsoid ARTMAP network model. App Soft Comput. -35. rr.-186-198

6. Kanarev, F. M. Rotacionnye pochvoobrabatyvayuschie mashiny i orudiya / F. M. Kanarev. - M.: Mashinostroenie, 1983. - 142 s.

7. Teoriya konstrukciya i raschet stroitel'nyh i dorozhnyh mashin: ucheb. posobie / L. A. Goberman, K.V. Stepanyan, A. A. Yarkin, V. S. Zalenskiy. - M.: Mashinostroenie, 1979. - 407 s.

8. Dalin, A. D. Rotornye gruntoobrabatyvayuschie i zemleroynye mashiny / A. D. Dalin, I.P. Pavlov. - M.: Mashgiz, 1950. - 147 s

9. S. N. Popov, D. A. Antonyuk. "Issledovanie vliyaniya vneshnih usloviy iznashivaniya na iznosostoykost' rezcov dorozhnoy frezy" Novі materіali і tehnologії v metalurgії ta mashinobuduvannі. -№ 1. -2008. pp. 25-29.

10. Bibikov V.N. Issledovanie iznosa rezhuschego instrumenta pri frezerovanii asfal'tovogo betona: Dis. kand. tehn. nauk: 05.05.04 / Gor'kovskiy politehnicheskiy institut im. A.A. Zhdanova. - Gor'kiy, 1975. - 24 s.

11. Osipov S. P., Shkol'nyy A. N., Bida K. B. Ocenka dolgovechnosti vraschayuschihsya rezcov s iznosostoykimi vstavkami proizvol'noy formy // Vestnik Tomskogo gosudarstvennogo arhitekturno-stroitel'nogo universiteta. -2014. -№5. -str.167-174.

12. Ignatov S. D., Sherstnev N. S.. "Matematicheskaya model' rabochego processa dorozhnoy frezy pri razrushenii asfal'tobetona" Vestnik Sibirskoy gosudarstvennoy avtomobil'no-dorozhnoy akademii. - 2015. -№ 4 (44). - pp. 120-125.

13. S. N. Popov, D. A. Antonyuk. "Vliyanie tribomaterialovedcheskih parametrov na harakter razrusheniya rezcov dorozhnoy frezy v usloviyah iznashivaniya zakreplennym abrazivom" Novі materіali і tehnologії v metalurgії ta mashinobuduvannі. -№2. -2006. -str. 77-84.

14. Karandikar J, Mcleay T, Turner S, Schmitz T. Tool wear monitoring using naïve bayes classifiers. // Int J Adv Manuf Technol. -2015. -№77(9-12). -rr.1613-1626

15. Rehorn A, Jiang J, Orban P. State-of-the-art methods and results in tool condition monitoring: a review. // Int J Adv Manuf Technol. -2005. -№26 (7-8). -rr.693-710

16. Yin, L. J., Gong, Q. M., and Zhao, J. “Study on rock mass boreability by TBM penetration test under different in situ stress conditions.” // Tunneling and Underground Space Technology. -2014. -Vol. 43. -pp. 413-426, DOI:https://doi.org/10.1016/j.tust.2014.06.002

17. Delisio, A. and Zhao, J. “A new model for TBM performance prediction in blocky rock conditions.” // Tunneling and Underground Space Technology. -2014. -Vol. 43. -pp. 440-452, DOI:https://doi.org/10.1016/j.tust.2014. 06.004.

18. Delisio, A., Zhao, J., and Einstein, H. H.. “Analysis and prediction of TBM performance in blocky rock conditions at the Lötschberg Base Tunnel.” // Tunneling and Underground Space Technology. -2013. -Vol. 33. -pp. 131-142. DOI:https://doi.org/10.1016/j.tust.2012.06.015.

19. Liu, Q., Shi, K., Zhu, Y., and Huang, X. “Study on rock breaking force calculation model of TBM disc cutter.” // Journal of China Coal Society. -2013. -Vol. 38. -No. 7. -pp. 1136-1142 (in Chinese)

20. Cho, J. W., Jeon, S., Yu, S. H., and Chang, S. H. “Optimum spacing of TBM disc cutters: A numerical simulation using the three-dimensional dynamic fracturing method.” // Tunneling & Underground Space Technology. -2010. -Vol. 25. - No. 3. -pp. 230-244, DOI:https://doi.org/10.1016/j.tust.2009.11.007

21. Li, G., Zhu, L., and Yang, J. “Prediction method of TBM disc cutter wear in hard rock based on CSM model.”// China Mechanical Engineering. -2014. -Vol. 25. -No. 1. -pp. 33-35 (in Chinese).

22. Li, G., Zhu, L., Yang, J., and Wang, W. “Calculation mechanics model and solution of TBM disc cutter based on CSM model.” // Mining Machine. -2012. -Vol. 40. -No. 4. -pp. 8-11 (in Chinese).

23. Sun, J., Chen, M., Chen, B., Lu, W., and Zhou, C. “Numerical simulation study on influencing factors of rock breaking process of TBM disc cutter.” // Chinese Journal of Geotechnical Mechanics. -2010. -Vol. 32. -No. 6. -pp. 1891-1897.

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