DOI: 10.52150/2522-9117-2022-36-285-298

Kuzmenko Mykhailo Yuriiovych, Ph. D. (Tech.), Ukrainian State University of Science and Technologies, Lazariana Str., 2, Ukraine, Dnipro, 49010. ORCID: 0000-0002-1989-242X. E-mail: m.y.kuzmenko@ust.edu.ua

Egorov Oleksandr Petrovych, Ph. D. (Tech.), Associate Professor, Ukrainian State University of Science and Technologies, Lazariana Str., 2, Ukraine, Dnipro, 49010. ORCID: 0000-0002-9867-0437. E-mail: o.p.egorov@ust.edu.ua

Rybalchenko Mariia Oleksandrivna, Ph. D. (Tech.), Associate Professor, Ukrainian State University of Science and Technologies, Lazariana Str., 2, Ukraine, Dnipro, 49010. ORCID: 0000-0001-5162-5201. E-mail: m.o.rybalchenko@ust.edu.ua

ANALYSIS OF THE EFFICIENCY OF BLANKET CUTTING METHODS IN THE PRODUCTION OF SMALL ROLLED RODS IN RODS

Summary. The purpose of the work is to analyze the effectiveness of methods of cutting blanks on continuous blanking machines (CBMs) in the production of graded rolled metal in rods. Practically 100% of the orders for small-grade rolled products in rods are measured products, while the actual output of measured products from the rolling mill is 95-98%, and the rest is non-measured products. At the final stage of rolled production, metal losses also occur due to excessive technological cutting during the cutting of rolled products. There are economic losses associated with the sale of bundles of irregular rods at a lower cost. The analysis of numerous studies and scientific publications made it possible to formulate the task of inventing such cutting strategies and algorithms that ensure the minimization of finished rolled products due to the coordinated management of continuous blanking mills (BZS) and continuous small grade mills (BDS). It is shown that at the final stage of the production of commercial products on continuous rolling mills, metal losses occur due to non-dimensional residues and excessive trimming, which arises, on the one hand, as a result of the fact that the length of the workpiece, which is fed to the entrance of the rolling mill, is not a multiple of the finished dimensional profile , and on the other – due to the peculiarities of the equipment of the rolling mills that implement cutting operations. The paper shows that the choice of methods for cutting rolled metal is a multi-criteria task. The analysis of the marginal deviations of the geometric dimensions of the blanks and small rolled products was carried out. On the basis of the calculations, it is shown that the simultaneous provision of the economic criterion and the criterion of the maximum yield of dimensional rolled bars is possible only in the production of reinforcing profiles larger than No. 14, and in the production of smaller profiles, the criterion of the maximum filling of the refrigerator should be used. It is shown that in the production of fine-grade profiles, the most effective method is the method of cutting rolled steel with cutting off the non-dimensional part. The obtained data can be used to build cutting plans in the production of commodity rolled metal.

Key words: rolling mill, billet, small rolled steel, cutting, criterion, billet length.

DOI: https://doi.org/10.52150/2522-9117-2022-36-285-298

For citation: Kuzmenko M. Yu., Egorov O. P., Rybalchenko M. O. Analiz efektyvnosti sposobiv rozkroiu zahotovok pry vyrobnytstvi dribnosortnoho prokatu v stryzhniakh [Analysis of the efficiency of blanket cutting methods in the production of small rolled rods in rods]. Fundamental and applied problems of ferrous metallurgy. 2022. Collection 36. P. 285-298. [In Ukrainian]. https://doi.org/10.52150/2522-9117-2022-36-285-298

References

1. Beshta, S., Egorov, A. P., Boyko, O. A., Kuzmenko, M. Yu., & Sokolova, A. S. (2013). Technical and economic indicators of the production of small-section rolled products in rods as an objective control function. Theory and practice of metallurgy, (3), 57-61
2. Kuvaev, M. (2007). Development of the scientific foundations of automation of processes for the production of reinforcing steel: abstract of the thesis. dis. Dr. tech. sciences: 05.13.07. Dnipropetrovsk, National Girnichiy University.
3. Beshta, S., Kuzmenko, M. Yu., Boyko, O. A., & Sokolova, A. S. (2014). Optimal cutting of long products for commercial lengths. Scientific Bulletin of NSU. (2), 76-85
4. Dubina, V., Khudik, Yu. T., Bolshakov, V. I. et al. (2000). Reinforcing bar for reinforced concrete structures. Directory-catalog. NIIIMM
5. Khorolsky, Yu., & Kanygin, S. L. (2011). Handbook of long products. Metallica
6. Patent 107908 Ukraine, No. а201406350. Method for managing the cutting of rolled products on a non-stop dreble-section mill (2015)