Obrabotka Metallov 2019 Vol. 21 No. 4

OBRABOTKAMETALLOV Vol. 21 No. 4 2019 83 MATERIAL SCIENCE 17. Mabhali L.A.B., Sacks N., Pityana S. Three body abrasion of laser surface alloyed aluminiumAA1200. Wear , 2012, vol. 290–291, pp. 1–9. DOI: 10.1016/j.wear.2012.05.034. 18. Ravnikar D., Dahotre N.B., Grum J. Laser coating of aluminum alloy ENAW 6082-T651 with TiB 2 and TiC: microstructure and mechanical properties. Applied Surface Science , 2013, vol. 282, pp. 914–922. DOI: 10.1016/j. apsusc.2013.06.089. 19. Nath S., Pityana S., Majumdar J.D. Laser surface alloying of aluminium with WC + Co + NiCr for improved wear resistance. Surface and Coatings Technology , 2012, vol. 206, iss. 15, pp. 3333–3341. DOI: 10.1016/j. surfcoat.2012.01.038. 20. Viswanathan A., Sastikumar D., Kumar H., Nath A.K. Laser processed TiC–Al 13 Fe 4 composite layer formation on Al–Si alloy. Optics and Lasers in Engineering , 2012, vol. 50, iss. 9, pp. 1321–1329. DOI: 10.1016/j. optlaseng.2012.02.013. 21. D’Amato C., Betts J.C., Buhagiar J. Laser surface alloying of an A356 aluminium alloy using nickel and Ni-Ti-C: a corrosion study. Surface and Coatings Technology , 2014, vol. 244, pp. 194–202. DOI: 10.1016/j. surfcoat.2014.02.018. 22. Smirnova N.A. Lazernoe legirovanie poverkhnosti alyuminievykh splavov [Laser surface alloying of aluminum alloys]. Naukoemkie tekhnologii v mashinostroenii = Science Intensive Technologies in Mechanical Engineering , 2014, no. 3 (33), pp. 28–36. 23. Dong X., Zhou J., Jia Y., Liu B. Effect of alloying on high temperature fatigue performance of ZL114A (Al- 7Si) alloy. Transactions of Nonferrous Metals Society of China , 2012, vol. 22, iss. 3, pp. S661–S667. DOI: 10.1016/ S1003-6326(12)61782-8. 24. Blum R., Molian P. CO 2 laser coating of nanodiamond on aluminum using an annular beam. Applied Surface Science , 2014, vol. 288, pp. 1–8. DOI: 10.1016/j.apsusc.2013.04.162. 25. D’Amato C., Buhagiar J., Betts J.C. Tribological characteristics of an A356 aluminium alloy laser surface alloyed with nickel and Ni–Ti–C. Applied Surface Science , 2014, vol. 313, pp. 720–729. DOI: 10.1016/j. apsusc.2014.06.061. 26. Pakieła W., Tański T., Brytan Z., Labisz K. The influence of laser alloying on the structure and mechanical properties of AlMg 5 Si 2 Mn surface layers. Applied Physics A: Materials Science and Processing , 2016, vol. 122, iss. 352, pp. 1–9. DOI: 10.1007/s00339-016-9834-z. 27. Alieva S.G., Al’tman M.B., Ambartsumyan S.M. Promyshlennye alyuminievye splavy [Industrial aluminum alloys]. Ed. by F.I. Kvasov, I.N. Fridlyander. Moscow, Metallurgiya Publ., 1984. 528 p. 28. Savrai R.A., Makarov A.V., Malygina I.Yu., Rogovaya S.A., Osintseva A.L. Improving the strength of the AISI 321 austenitic stainless steel by frictional treatment. Diagnostics, Resource and Mechanics of materials and structures , 2017, iss. 5, pp. 43–62. DOI: 10.17804/2410-9908.2017.5.043-062. 29. ISO 14577-1:2015. Metallic materials. Instrumented indentation test for hardness and materials parameters . Pt. 1. Test method . Geneva, ISO, 2015. 46 p. 30. Cheng Y.T., Cheng C.M. Relationships between hardness, elastic modulus and the work of indentation. Applied Physics Letters , 1998, vol. 73, iss. 5, pp. 614–618. DOI: 10.1063/1.121873. 31. Page T.F., Hainsworth S.V. Using nanoindentation techniques for the characterization of coated systems: a critique. Surface and Coatings Technology , 1993, vol. 61, iss. 1–3, pp. 201–208. DOI: 10.1016/0257- 8972(93)90226-E. 32. Petrzhik M.I., Levashov E.A. Modern methods for investigating functional surfaces of advanced materials by mechanical contact testing. Crystallography Reports , 2007, vol. 52, iss. 6, pp. 966–974. DOI: 10.1134/ S1063774507060065. 33. Mayrhofer P.H., Mitterer C., Musil J. Structure-property relationships in single- and dual-phase nanocrystalline hard coatings. Surface and Coatings Technology , 2003, vol. 174–175, pp. 725–731. DOI: 10.1016/ S0257-8972(03)00576-0. 34. Kragel’skii I.V., Dobychin M.N., Kombalov V.S. Osnovy raschetov na trenie i iznos [Fundamentals of friction and wear calculations]. Moscow, Mashinostroenie Publ., 1977. 526 p. 35. Savrai R.A., Makarov A.V., Malygina I.Yu., Volkova E.G. Effect of nanostructuring frictional treatment on the properties of high-carbon pearlitic steel. Part I: Microstructure and surface properties. Materials Science and Engineering: A , 2018, vol. 734, pp. 506–512. DOI: 10.1016/j.msea.2018.07.099.

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