The effect of ion‑plasma nitriding on the enduring quality and the nature of changes in the surface roughness of titanium alloys VT1‑0, VT6 and OT4‑1-Reference-Cited by-同舟云学术

The effect of ion‑plasma nitriding on the enduring quality and the nature of changes in the surface roughness of titanium alloys VT1‑0, VT6 and OT4‑1

Published:2022-05-31 Issue:2 Volume: Page:78-83
ISSN:2414-0406
Container-title:Litiyo i Metallurgiya (FOUNDRY PRODUCTION AND METALLURGY)
language:
Short-container-title:Litʹë metall.

Author:

Drobov A. N.¹,Bosyakov M. N.¹,Pobol I. L¹

Affiliation:

1. Physical‑Technical Institute of National Academy of Sciences of Belarus

Abstract

The effect of the temperature of the ion‑plasma nitriding process on the enduring quality of the resulting hardened layers on titanium VT1‑0 and titanium alloys VT6 and OT4‑1 and the effect of ion‑plasma nitriding on the change in the Ra parameter of the surface roughness of titanium samples is investigated. It is defined that ion‑plasma nitriding leads to a significant increase in the enduring quality of the titanium alloys under study. The depth of the enduring quality groove in untreated samples of titanium VT1‑0, alloys VT6, OT4‑1 was 11, 7 and 10 microns, respectively, whereas in samples after ion‑plasma nitriding, the wear groove had a depth of 1.9, 0.9, 2.1 microns. It was revealed that when the initial roughness of the processed samples is more than Ra 0.1 microns after ion nitriding, the roughness index Ra, one of the key components of surface quality, decreases.

Publisher

Belarusian National Technical University

Subject

Pulmonary and Respiratory Medicine,Pediatrics, Perinatology, and Child Health

Reference5 articles.

1. Vershinin D. S., Smoljakova M. Ju. Nizkotemperaturnoe azotirovanie titana v plazme nesamostojatel’nogo dugovogo razrjada nizkogo davlenija [Low‑temperature nitriding of titanium in the plasma of a non‑self‑sustained low‑pressure arc discharge]. Fizika i himija obrabotki material = Physics and chemistry of material processing, 2011, no. 5, pp. 15–20.

2. Ramazanov K. N., Ramazanov I. S. Ionnoe azotirovanie titanovogo splava VT6 v tlejushhem razrjade s jeffektom pologo katoda [Ion nitriding of titanium alloy VT6 in a glow discharge with a hollow cathode effect]. Vestnik UGATU = Bulletin of USATU, 2014, no.2, pp. 41–46.

3. Arzamasov B. N., Gromov V. I., Soskov M. D. Vlijanie rezhimov ionnogo azotirovanija na strukturu i svojstva titanovyh splavov [Influence of ion nitriding regimes on the structure and properties of titanium alloys]. Metallovedenie i termicheskaja obrabotka metallov = Metal science and heat treatment of metals, 1996, no. 5, pp. 26–28.

4. Metin E., Inal O. T. Formation and growth of iron nitrides during ion‑nitriding. Journal of Materials Science, 198, pp. 2783–2788.

5. Pobol’ I. L., Oleshuk I. G., Drobov A. N., Fun Sun, Lin Van. Issledovanie formirovanija uprochnennyh sloev na titanovyh splavah metodom ionno‑plazmennogo azotirovanija [Investigation of the formation of hardened layers on titanium alloys by the method of ion‑plasma nitriding]. Vescі NAN Belarusі. Seryja fіzіka‑tjehnіchnyh navuk = Processing of the National Academy of Sciences of Belarus. Physical‑technical series, 2019, vol. 64, no. 1, pp. 25–34.

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Increasing the Hardness and Wear Resistance of Commercial-Purity Titanium by Anodic Plasma Electrolytic Carburizing;Russian Metallurgy (Metally);2023-05