DEVELOPMENT OF THE WORKING MODEL OF PRODUCTION REINDUSTRIALIZATION OF DIE STEEL HEAT TREATMENT

The article considers the issues related to production reindustrialization using an example of creating a working model of engineering design of the current heat treatment of stamping tool from special steel. In the process of reindustrialization it requires restoring or modernizing the production facilities, lost or outdated during deindustrialization in the postindustrial period. The development is relevant because heat treatment is integral part of the most manufacturing and conditioning processes of different instruments. With the help of national modern equipment there are opportunities for high-quality heat treatment of wide range of special steels in order to ensure the required mechanical properties of products. All major groups of die steels are considered in terms of working properties: steels with increased wear resistance, rehardened steels with high-resistance to crumbling, high impact steels, steels with medium heat resistance and higher viscosity, steels with increased heat resistance and higher viscosity, high heat resistance steels. The requirements to their properties and possible ways of obtaining these properties by different kinds of heat treatment were analyzed. Based on this analysis, by comparing of knowledge about precise use of die steels, required operation properties and possible ways of their obtaining with help of heat treatment, the modern equipment was selected to achieve the required results. There is a possibility for highquality heat treatment of wide range of die steels with Russian modern equipment in order to ensure the required mechanical characteristics of products. Currently, it is important to create modern productions that combine the colossal accumulated scientific and production experience and modern advanced technologies and equipment. It`s quite a difficult task both from a technical and economic perspective.

1. Glukhov  L.M.,  Gorbatyuk  S.M.,  Morozova  I.G.,  Naumova  M.G.  Effective Laser Technology for Making Metal Products and Tools.  Metallurgist. 2016, vol. 60, no. 3, pp. 306–312.

2. Gorbatyuk  S.M.,  Kochanov A.V.  Method  and  equipment  for  mechanically strengthening the surface of rolling-mill rolls. Metallurgist. 2012, vol. 56, pp. 279–283.

3. Gorbatyuk S.M., Morozova I.G., Naumova M.G. Color Mark Formation on a Metal Surface by a Highly Concentrated Energy Source.  Metallurgist. 2016, vol. 60, pp. 646–650.

4. Gorbatyuk S.M., Osadchii V.A., Tuktarov E.Z. Calculation of the  geometric parameters of rotary rolling by using the automated design  system Autodesk Inventor. Metallurgist. 2011, vol. 55, pp.  543–546.

5. Poznyak L.A., Skrynchenko Yu.M., Tishaev S.I. Shtampovye stali [Die steels]. Moscow: Metallurgiya, 1980, 244 p. (In Russ.).

6. Radyuk A.G., Gorbatyuk S.M., Gerasimova A.A. Use of electric-arc  metallization  to  recondition  the  working  surfaces  of  the  narrow walls of thick-walled slab molds. Metallurgist. 2011, vol. 55,  pp.  419–423.

7. Gol’dshtein  M.I.,  Grachev  S.V.,  Veksler  Yu.G.  Spetsial’nye stali  [Special steels]. Moscow: Metallurgiya, 1985, 408 p. (In Russ.).

8. Poznyak  L.A.,  Skrynchenko  Yu.M.  etc.  Instrumental’nye stali. Spravochnik [Tool steel. Directory]. Moscow: Metallurgiya, 1977,  168 p. (In Russ.).

9. Lakhtina Yu.M., Rakhshtad A.G. Termicheskaya obrabotka v ma¬shi nostroenii. Spravochnik [Heat treatment in mechanical engineering. Directory]. Moscow: Mashinostroenie, 1982, 496 p. (In Russ.).

10. Bernshtein M.L., Rakhshtadt A.G. Metallovedenie i termicheskaya obrabotka stali. Spravochnik. T. 1. Metody ispytanii i issledovaniya [Metallography and heat treatment of steel: Directory. Vol. 1. Test  methods  and  research].  Moscow:  Metallurgiya,  1983,  367  p.  (In  Russ.).

11. Oborudovanie dlya termoobrabotki ZAO Nakal – Promyshlennye pechi  [Heat  treatment  equipment  of  JSC  “Nakal-Industrial  furnaces”]. Available at URL: http://www.nakal.ru/catalog/ (Accessed 20.02.2016) (In Russ.).

12. Chichenev N.A., Yan Chzhun Min’, Savchenko V.S. Description of  the process of laser quenching of metals based on the method of si-mi larity and dimensions. Izvestiya VUZov. Chernaya metallurgiya = Izvestiya. Ferrous Metallurgy. 1995, no. 7, pp. 68–69. (In Russ.).

13. Chichenev N.A. Import-replacing re-engineering of the drive of the  rollers in the intermediate roller table of a continuous bloom caster.  Metallurgist. 2015, vol. 58, no. 9-10, pp. 892–895.

14. Zakharov A.N.,  Gorbatyuk  S.M.,  Borisevich  V.G  Modernizing  a  press for making refractories. Metallurgist. 2008, vol. 52, no. 7-8,  pp. 420–423.

15. Mazhirin  E.A.,  Chichenev  N.A.,  Zadorozhnyi  V.D.  Modernizing  the track units of the 2800 thick-sheet mill at OAO Ural’skaya Stal.  Steel in Translation. 2008, vol. 38, no. 12, pp. 1048–1050.

16. Alyushin Yu.A. Energy nature of centrifugal and Newtonian forces.  International Journal of Mechanical Engineering and Automation (IJMEA). 2016, vol. 3, no. 3, pp. 121–127.

17. Kryukov I.Yu., Naumova M.G., Vdovin K.N., Larina T.P. Development of a mathematical model of the thermal state of crystallizing  billet of rectangular cross section in a horizontal semi-continuous  casting machine. Fundamental’nye issledovaniya. 2016, no. 10(2),  pp. 306–311. (In Russ.).

18. Gorbatyuk S.M., Shapoval A.A., Mos’pan D.V., Dragobetskii V.V.  Production of periodic bars by vibrational drawing. Steel in Translation. 2016, vol. 46, Issue 7, pp. 474–478.

19. Bedolla-Jacuinde A., Guerra F.V., Rainforth M. etc. Sliding wear  behavior  of  austempered  ductile  iron  microalloyed  with  boron.  Wear. 2015, vol. 330-331, pp. 23–31.