Growth Kinetics of the Fe2B Coating on AISI H13 Steel
详细信息    查看全文
  • 作者:M. Keddam ; M. Ortiz-Domínguez…
  • 关键词:Boriding ; Iron boride ; Incubation time ; Kinetic model ; Activation energy
  • 刊名:Transactions of the Indian Institute of Metals
  • 出版年:2015
  • 出版时间:June 2015
  • 年:2015
  • 卷:68
  • 期:3
  • 页码:433-442
  • 全文大小:1,731 KB
  • 参考文献:1.Sinha A K, J Heat Treat 4 (1991) 437.
    2.Singhal S C, Thin Solid Films 45 (1977) 321.View Article
    3.Meric C, Sahin S, and Yilmaz S S, Mater Res Bull 35 (2000) 2165.View Article
    4.Pertek A, and Kulka M, Appl Surf Sci 202 (2002) 252.View Article
    5.Vipin J, and Sundararajan G, Surf Coat Technol 149 (2002) 21.View Article
    6.Keddam M, Kulka M, Makuch N, Pertek A, Ma?dziński L, Appl Surf Sci 298 (2014) 155.View Article
    7.Kukharev D S, Fizenko S P, and Shabunya S I, J Eng Phys Thermophys 69 (1996) 187.View Article
    8.Campos I, Oseguera J, Figueroa U, Garcia J A, Bautista O, and Keleminis G, Mater Sci Eng A 352 (2003) 261.View Article
    9.Keddam M, Appl Surf Sci 236 (2004) 451.View Article
    10.Campos-Silva I, Ortiz-Domínguez M, Villavelazquez C, Escobar R, and López N, Defect Diffus Forum 272 (2007) 79.
    11.Campos-Silva I, López-Perrusquia N, Ortiz-Domínguez M, Figueroa-López U, Gómez-Vargas O A, Meneses-Amador A, and Rodríguez-Castro G, Kovove Mater 47 (2009)75.
    12.Campos-Silva I, Ortiz-Domínguez M, Cimenoglu H, Escobar-Galindo R, Keddam M, Elías-Espinosa M, and López-Perrusquia N, Surf Eng 27 (2011) 189.View Article
    13.Ramdan R D, Takaki T, and Tomita Y, Mater Trans 49 (2008) 2625.View Article
    14.Keddam M, Ortiz-Domínguez M, Campos-Silva I, and Martinez-Trinídad J, Appl Surf Sci 256 (2010) 3128.View Article
    15.Ortiz-Domínguez M, Hernandez-Sanchez E, Martinez-Trinídad J, Keddam M, and Campos-Silva I, Kovove Mater 48 (2010) 1.
    16.Keddam M, and Chegroune R, Appl Surf Sci 256 (2010) 5025.View Article
    17.Nait Abdellah Z, Keddam M, Chegroune R, Bouarour B, Haddour L, and Elias A, Matér Tech 100 (2012) 581.View Article
    18.Nait Abdellah Z, Keddam M, and Elias A, Int J Mater Res 104 (2013) 260.View Article
    19.Ortiz-Domínguez M, Keddam M, Elias-Espinosa M, Damián-Mejía O, Flores-Rentería M A, Arenas-Flores A, and Hernández-ávila J, Surf Eng 30 (2014) 490.View Article
    20.Elias-Espinosa M, Ortiz-Domínguez M, Keddam M, Flores-Rentería M A, Damián-Mejía O, Zuno-Silva J, Hernández-ávila J, Cardoso-Legorreta E, and Arenas-Flores A, J Mater Eng Perform 23 (2014) 2943.View Article
    21.Kulka M, Makuch N, Pertek A, and Maldzinski L, J. Solid State Chem 199 (2013) 196.View Article
    22.Brakman C M, Gommers A W J, and Mittemeijer E J, J Mater Res 4 (1989) 1354.View Article
    23.Massalski T B, Binary Alloys Phase Diagrams, 2nd Edn., ASM International, Materials Park, OH (1990).
    24.Yu L G, Chen X J, Khor K A, and Sundararajan G, Acta Mater 53 (2005) 2361.View Article
    25.Okamoto H, J Phase Equilib Differ 25 (2004) 297.View Article
    26.Nait Abdellah Z, Chegroune R, Keddam M, Bouarour B, Haddour L, and Elias A, Defect Diffus Forum 322 (2012) 1.View Article
    27.Dybkov V I, Reaction Diffusion and Solid State Chemical Kinetics, Trans Tech Publications, Dürnten (2010) p 7.
    28.Press W H, Flanery B P, and Teukolsky S A, Numerical Recipes in Pascal: The Art of Scientific Computing, Cambridge University, Cambridge (1989).
    29.Campos-Silva I, Bravo-Bárcenas D, Meneses-Amador A, Ortiz-Dominguez M, Cimenoglu H, Figueroa-López U, and Andraca-Adame J, Surf Coat Technol 237 (2013) 402.View Article
    30.H. Kunst, O. Schaaber, H?rterei-Tech Mitt 22 (1967) 275.
    31.Campos-Silva I, Ortiz-Domínguez M, Bravo-Bárcenas O, Do?u-Ruiz M A, Bravo-Bárcenas D, Tapia-Quintero C, and Jiménez-Reyes M Y, Surf Coat Technol 205 (2010) 403.View Article
    32.Taktak S, J Mater Sci 41 (2006) 7590.View Article
    33.Campos-Silva I, Ortiz-Domínguez M, Tapia-Quintero C, Rodríguez-Castro G, Jiménez-Reyes M Y, and Chávez-Gutiérrez E, J Mater Eng Perform 21 (2012) 1714.View Article
    34.Genel K, Vacuum 80 (2006) 451.View Article
    35.Xu L, Wu X, and Wang H, J Mater Sci Technol 23 (2007) 525.
    36.Campos-Silva I, Ortiz-Domínguez M, López-Perrusquia N, Bermúdez-Rodríguez G, and Gómez-Vargas O A, Defect Diffus Forum 283-86 (2009) 681.View Article
    37.Badini C, Gianoglio G, and Pradelli G, Surf Coat Technol 30 (1987), 157.View Article
    38.Nait Abdellah Z, Keddam M, and Elias A, Acta Phys Pol A 122 (2012) 588.
    39.Dukarevich I S, Mozharov M V, and Shigarev A S, Metallovedenie Termicheskaya I Obrabotka Metallov 2 (1973) 64.
  • 作者单位:M. Keddam (1)
    M. Ortiz-Domínguez (2)
    M. Elias-Espinosa (3)
    O. Damián-Mejía (4)
    A. Arenas-Flores (5)
    O. A. Gómez-Vargas (6)
    M. Abreu-Quijano (2)
    Jorge Iván Aldana-González (7)
    J. Zuno-Silva (2)

    1. Laboratoire de Technologie des Matériaux, Faculté de Génie Mécanique et Génie des Procédés, USTHB, B.P. No. 32, El-Alia, Bab-Ezzouar, 16111, Algiers, Algeria
    2. Escuela Superior Cd. Sahagún, Universidad Autónoma del Estado de Hidalgo, UAEH, Carretera Cd. Sahagún-Otumba s/n, 43990, Pachuca, Hidalgo, Mexico
    3. Instituto Tecnológico y de Estudios Superiores de Monterrey-ITESM Campus Santa Fe, Av. Carlos Lazo No. 100, Del. álvaro Obregón, CP 01389, Mexico, D.F., Mexico
    4. Instituto de Investigación en Materiales, Universidad Nacional Autónoma de México-UNAM, Circuito Exterior, s/n Ciudad Universitaria, CP 04510, Coyoacán, D.F., Mexico
    5. Centro de Investigación en Materiales y Metalurgia, Universidad Autónoma del Estado de Hidalgo, Ciudad Universitaria Pachuca-Tulancingo km. 4.5, Pachuca, Hidalgo, Mexico
    6. Instituto Tecnológico de Tlalnepantla-ITTLA, Av. Instituto Tecnológico, S/N. Col. La Comunidad, CP 54070, Tlalnepantla de Baz, Estado de México, Mexico
    7. Universidad Tecnológica de México, Blvd. Calacoaya No. 7, Col. La Ermita, 52970, Atizapán de Zaragoza, Estado de México, Mexico
  • 刊物类别:Chemistry and Materials Science
  • 刊物主题:Materials Science
    Metallic Materials
    Materials Science, general
    Tribology, Corrosion and Coatings
  • 出版者:Springer India
  • ISSN:0975-1645
文摘
A kinetic model was suggested to study the growth kinetics of Fe2B layers on AISI H13 steel via the pack-boriding method in the temperature range of 1,123-,273?K. This model was based of the principle of mass conservation at the (Fe2B/substrate) interface where the boride incubation time was independent of the boriding temperature. The model was also validated experimentally by comparing the experimental Fe2B layers thicknesses with the predicted values at 1,173?K during 7?h, 1,223?K during 5?h, 1,253?K during 2?h and 1,273?K for 3?h. The Fe2B layers grown on AISI H13 steel were characterized by use of the following experimental techniques: optical microscopy, scanning electron microscopy, energy dispersive X-ray spectroscopy and X-ray diffraction analysis. In addition, a contour diagram describing the evolution of Fe2B layers as a function of the boriding parameters (time and temperature) was proposed. Finally, the boron activation energy for AISI H13 steel was estimated as 233?kJ?mol? on the basis of our experimental results. This value of energy was compared with the literature data.
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via email.