High-temperature titanium nitridation kinetics

被引：8

作者：

Kovalev, I. A. ^{[1
]}

Kuznetsov, K. B. ^{[1
]}

Zufman, V. Yu. ^{[1
]}

Ogarkov, A. I. ^{[1
]}

Shevtsov, S. V. ^{[1
]}

Kannykin, S. V. ^{[2
]}

Chernyavskii, A. S. ^{[1
]}

Solntsev, K. A. ^{[1
]}

机构：

[1] Russian Acad Sci, Baikov Inst Met & Mat Sci, Leninskii Pr 49, Moscow 119334, Russia

[2] Voronezh State Univ, Univ Skaya Pl 1, Voronezh 394018, Russia

来源：

INORGANIC MATERIALS | 2016年 / 52卷 / 12期

基金：

俄罗斯科学基金会;

关键词：

titanium nitride; nitridation; oxidation-assisted engineering; ceramic; kinetics;

D O I：

10.1134/S0020168516120050

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

Titanium samples 60.0 mm in length and 3.0 x 0.3 mm in cross section were heated in a nitrogen gas atmosphere for 60 min at temperatures from 1300 to 2100A degrees C. At temperatures below 2000A degrees C, the titanium nitridation process comprised two stages. The lower temperature limit of exponential nitridation kinetics was determined to be similar to 1000A degrees C. At temperatures above the melting point of the metal, the presence of liquid phase in the bulk of the material has no significant effect on the titanium nitridation process.

引用

页码：1230 / 1234

页数：5

共 50 条

[1] High-temperature titanium nitridation kinetics
I. A. Kovalev
K. B. Kuznetsov
V. Yu. Zufman
A. I. Ogarkov
S. V. Shevtsov
S. V. Kannykin
A. S. Chernyavskii
K. A. Solntsev
Inorganic Materials, 2016, 52 : 1230 - 1234
[2] Kinetics of zirconium saturation with nitrogen during high-temperature nitridation
K. B. Kuznetsov
I. A. Kovalev
V. Yu. Zufman
A. I. Ogarkov
S. V. Shevtsov
A. A. Ashmarin
A. S. Chernyavskii
K. A. Solntsev
Inorganic Materials, 2016, 52 : 558 - 560
[3] Kinetics of zirconium saturation with nitrogen during high-temperature nitridation
Kuznetsov, K. B.
Kovalev, I. A.
Zufman, V. Yu
Ogarkov, A. I.
Shevtsov, S. V.
Ashmarin, A. A.
Chernyavskii, A. S.
Solntsev, K. A.
INORGANIC MATERIALS, 2016, 52 (06) : 558 - 560
[4] Structure and Hardness of Ceramics Produced through High-Temperature Nitridation of Titanium Foil
S. V. Shevtsov
I. A. Kovalev
A. I. Ogarkov
S. V. Kannykin
D. V. Prosvirnin
A. S. Chernyavskii
K. A. Solntsev
Inorganic Materials, 2018, 54 : 295 - 300
[5] Structure and Hardness of Ceramics Produced through High-Temperature Nitridation of Titanium Foil
Shevtsov, S. V.
Kovalev, I. A.
Ogarkov, A. I.
Kannykin, S. V.
Prosvirnin, D. V.
Chernyavskii, A. S.
Solntsev, K. A.
INORGANIC MATERIALS, 2018, 54 (03) : 295 - 300
[6] Kinetics of High-Temperature Nitridation of Zr–Nb Solid Solutions
I. A. Kovalev
G. P. Kochanov
V. Yu. Zufman
L. O. L’vov
S. V. Shevtsov
K. Yu. Demin
A. I. Sitnikov
A. V. Shokod’ko
S. S. Strel’nikova
A. S. Chernyavskii
K. A. Solntsev
Inorganic Materials, 2023, 59 : 242 - 250
[7] Kinetics of High-Temperature Nitridation of Zr-Nb Solid Solutions
Kovalev, I. A.
Kochanov, G. P.
Zufman, V. Yu.
L'vov, L. O.
Shevtsov, S. V.
Demin, K. Yu.
Sitnikov, A. I.
Shokod'ko, A. V.
Strel'nikova, S. S.
Chernyavskii, A. S.
Solntsev, K. A.
INORGANIC MATERIALS, 2023, 59 (03) : 242 - 250
[8] Transition from Parabolic to Linear Kinetics in the High-Temperature Nitridation of Niobium
J. G. Keller
D. L. Douglass
Oxidation of Metals, 1999, 52 : 155 - 176
[9] Transition from parabolic to linear kinetics in the high-temperature nitridation of niobium
Keller, JG
Douglass, DL
OXIDATION OF METALS, 1999, 52 (1-2): : 155 - 176
[10] Structure of Ceramics Produced through High-Temperature Nitridation of Hafnium Foil
Kuznetsov, K. B.
Kovalev, I. A.
Ogarkov, A. I.
Shevtsov, S. V.
Kannykin, S. V.
Chernyavskii, A. S.
Solntsev, K. A.
INORGANIC MATERIALS, 2017, 53 (04) : 424 - 428

← 1 2 3 4 5 →