ArticleName |
Investigation of the influence of heat treatment on structure and properties of the specimens obtained
by direct laser deposition |
Abstract |
This paper shows the results of studies of the effect of heat treatment at the temperatures of 550 and 1050 oC on the specimen structure, tribological properties of the introduction of rider, strength and plasticity under static as well as durability under cyclic bending loads. The objects of investigation are the nickel-based alloy specimens formed by direct metal deposition. Heat treatment increases the wear resistance of specimens produced by the emission of large carbides. Heating the nickel-based alloy specimens, previously obtained by direct metal deposition to a temperature of 1050 oC (soaking time 1.5 hours) leads to increased abrasion resistance, reduction in strength and ductility due to separation at the grain boundaries of hard carbides which are stress concentrators. Characteristic structural zones formed at direct metal deposition were studied. The sectional structure of specimens consists of alternating zones of columnar and differently oriented small crystals. It is found that the homogeneous structure of the alloy specimens 1535-30 heating to a temperature of 550 oC (soaking time 1.5 hours) leads to an increase in durability under cyclic bending loads, while maintaining unchanged wear characteristics. Research results proposed the mode of heat processing of specimens obtained by the method of direct metal deposition, reducing structural heterogeneity and improving the durability under cyclic bending load. This work was carried out with the support of the Ministry of Education and Science of Russian Federation, the state contract (the 220-th resolution) No. 14.z50.31.0023, with the financial support of the Russian Federation for Basic Research; grant No. 16-33-80016 мол_эв_а and grant No. 14-29-10281 офи_м. |
References |
1. Grigoryants A. G., Shiganov I. N., Misyurov A. I. Tekhnologicheskie protsessy lazernoy obrabotki (Technological processes of laser treatment). Moscow : Bauman Moscow State Technical University, 2006. 664 p. 2. Turichin G. A., Zemlyakov E. V., Pozdeeva E. Yu., Tuominen Ya. Tekhnologicheskie vozmozhnosti lazernoy naplavki s ispolzovaniem moshchnykh volokonnykh lazerov (Technological possibilities of laser building-up using powerful fibrous lasers). Metallovedenie i termicheskaya obrabotka = Metal science and heat treatment. 2012. No. 3. pp. 35–40. 3. Gorunov A. I. Vliyanie kombinirovannogo metoda uprochneniya kontsentriro vannymi potokami energii na strukturu i tverdost poverkhnosti titanovogo + splava (Influence of combined method of strengthening by concentrated energy flows on the structure and durability of titanium + alloy surface). Materialovedenie = Material science. 2016. No. 1. pp. 15–18. 4. Gorunov A. I. Uprochnenie shtampovoy stali 4X5MFS moshchnym volokonnym lazerom (Strengthening of the die steel 4Kh5MFS (4X5МФС) by powerful fibrous laser). Vestnik mashinostroeniya = Russian Engineering Research. 2015. No. 12. pp. 65–67. 5. Gorunov A. I., Gilmutdinov A. Kh. Uprochnenie i naplavka volokonnym lazerom kak sposoby tselenapravlennogo formirovaniya struktury i svoystv titanovogo splava VT6 (Strengthening and fibrous laser building-up as the methods of directed formation of structure and properties of titanium alloy VT6 (ВТ6)). Izvestiya vysshikh uchebnykh zavedeniy. Poroshkovaya metallurgiya i funktsionalnye pokrytiya = Universities' Proceedings. Powder Metallurgy аnd Functional Coatings. 2015. No. 4. pp. 40–44. 6. Yadroitsev I., Smurov I. Surface Morphology in Selective Laser Melting of Metal Powders. Physics Procedia. 2011. Vol. 12. pp. 264–270. 7. Amend P., Hentschel O., Scheitler K., Gorunov A. I., Schmidt M. Effect of additive manufactured metallic structures on laser-based heat joining of thermoplastic metal hybrids. Key Engineering Materials. 2015. Vol. 651–653. pp. 777–782. 8. Hemmati I., Ocelík V., De Hosson J. Th. M. Effects of the alloy composition on phase constitution and properties of laser deposited Ni – Cr – B – Si coatings. Physics Procedia. 2013. Vol. 41. pp. 302–311. 9. Gharbi M., Peyre P., Gorny C., Carin M. Influence of various process conditions on surface finishes induced by the direct metal deposition laser technique on a Ti – 6Al – 4V alloy. Journal of Materials Processing Technology. 2013. Vol. 213. pp. 791–800. 10. Vilaro T., Colinb C., Bartout J. D., Naze L., Sennour M. Microstructural and mechanical approaches of the selective laser melting process applied to a nickel-base superalloy. Materials Science and Engineering: A. 2012. Vol. 534. pp. 446–451. 11. Hemmati I., Ocelík V., De Hosson J. Th. M. Dilution effects in laser cladding of Ni – Cr – B – Si – C hardfacing alloys. Materials Letters. 2012. Vol. 84, No. 1. pp. 69–72. 12. Dzhumaev P. S., Petrovsky V. N., Polsky V. I., Yakushin V. L. Surface hardening of structural materials by laser cladding with nickel alloys. Nonferrous Мetals. 2015. No. 1. pp. 50–55. 13. Makarov A. V., Soboleva N. N., Malygina I. Yu., Osintseva A. L. Formirovanie iznosostoykogo khromonikelevogo pokrytiya s osobo vysokim urovnem teplostoykosti kombinirovannoy lazerno-termicheskoy obrabotkoy (Formation of wear-resistant chromium-nickel coating with especially high level of heat resistivity using combined laser-thermal treatment). Metallovedenie i termicheskaya obrabotka = Metal science and heat treatment. 2015. Vol. 717, No. 3. pp. 39–46. 14. Golubovskiy E. R., Epishin A. I., Svetlov I. L. Anizotropiya kharakteristik staticheskoy i tsiklicheskoy prochnosti monokristallov litogo nikelevogo zharoprochnogo splava (Anisothropy of characteristics of static and cyclic strength of monocrystals of cast nickel heat-resistant alloy). Vestnik dvigatelestroeniya = Engine-building bulletin. 2004. No. 2. pp. 143–147. 15. Nenashev M. V., Kalashnikov V. V., Demoretskiy D. A. et al. Ustroystvo dlya tribotekhnicheskikh ispytaniy materialov (Unit for tribotechnical testings of materials). Patent RF, No. 2482464. IPC G 01 Т 3/56. Applied: April 05, 2011. Published: May 20, 2013. Bulletin No. 14 16. GOST 2789–73. Sherokhovatost poverkhnosti. Parametry i kharakteristiki (State Standard 2789–73. Surface roughness. Parameters and characteristics). Introduced: 1975–01–01. (in Russian) 17. ISO 1302:2002. Geometricheskie kharakteristiki izdeliy (GPS). Oboznachenie tekstury poverkhnosti v tekhnicheskoy dokumentatsii na produktsiyu (ISO 1302:2002. Geometrical Product Specifications (GPS) — Indication of surface texture in technical product documentation). (in Russian) 18. Gorunov A. I. Sozdanie pokrytiy i obemnykh izdeliy iz materiala na osnove nikelya metodom additivnoy lazernoy obrabotki (Manufacturing of coatings and three-dimentional products from nickel-based material by additive laser processing). Metally = Metals. 2016. No. 1. pp. 101–105. |