Adhesive and Cohesive Strength in FeB/Fe2B Systems

被引:0
作者
A. Meneses-Amador
D. Blancas-Pérez
R. Corpus-Mejía
G. A. Rodríguez-Castro
J. Martínez-Trinidad
L. F. Jiménez-Tinoco
机构
[1] SEPI-ESIME,Instituto Politécnico Nacional, Grupo Ingeniería de Superficies
[2] Instituto Politécnico Nacional,Sección de Estudios de Posgrado e Investigación, ESIME Azcapotzalco
来源
Journal of Materials Engineering and Performance | 2018年 / 27卷
关键词
advanced characterization; boriding; cohesive/adhesive strength; residual stress;
D O I
暂无
中图分类号
学科分类号
摘要
In this work, FeB/Fe2B systems were evaluated by the scratch test. The powder-pack boriding process was performed on the surface of AISI M2 steel. The mechanical parameters, such as yield stress and Young’s modulus of the boride layer, were obtained by the instrumented indentation technique. Residual stresses produced on the boride layer were estimated by using the x-ray diffraction (XRD) technique. The scratch test was performed in order to evaluate the cohesive/adhesive strength of the FeB/Fe2B coating. In addition, a numerical evaluation of the scratch test on boride layers was performed by the finite element method. Maximum principal stresses were related to the failure mechanisms observed by the experimental scratch test. Shear stresses at the interfaces of the FeB/Fe2B/substrate system were also evaluated. Finally, the results obtained provide essential information about the effect of the layer thickness, the residual stresses, and the resilience modulus on the cohesive/adhesive strength in FeB/Fe2B systems.
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页码:2089 / 2098
页数:9
相关论文
共 81 条
[1]  
Sveen S(2013)Scratch Adhesion Characteristics of PVD TiAlN Deposited on High Speed Steel, Cemented Carbide and PCBN Substrate Wear 308 133-141
[2]  
Andersson JM(2009)Modeling of the Carburizing and Nitriding Processes Comput. Mater. Sci. 46 26-35
[3]  
M’Saoubi R(2014)Boost-Diffusion Vacuum Carburizing-Process Optimisation Vacuum 99 175-179
[4]  
Olsson M(2012)A Diffusion-Precipitation Model for Gaseous Nitriding of Fe-2 wt.% V alloy J. Alloys. Compd. 536 124-131
[5]  
Cavaliere P(2009)Abrasive Wear Behavior of Boronized AISI 8620 Wear 266 1106-1112
[6]  
Zavarise G(2010)Tribological Properties of Borided AISI 4140 Steel with the Powder Pack-Boriding Method Tribol. Lett. 38 231-239
[7]  
Perillo M(2015)Plasma Bonding of a Cobalt-Chromium Alloy as an Interlayer for Nanostructured Diamond Growth Appl. Surf. Sci. 328 133-139
[8]  
Kula P(2015)Gradient Boride Layers Formed by Diffusion Carburizing and Laser Boriding Opt. Laser. Eng. 67 163-175
[9]  
Dybowski K(2006)Computer Simulation of Monolayer Growth Kinetics of Fe2B Phase During the Past-Boriding Process: Influence of the Paste Thickness Appl. Surf. Sci. 253 757-761
[10]  
Wolowiec E(2006)Effect of Boron Paste Thickness on the Growth Kinetics of Polyphase Boride Coating During the Boriding Process Appl. Surf. Sci. 252 2396-2403
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