1Department of Mechanical Engineering, Ahwaz branch, Islamic Azad University, Ahwaz, Iran
2Department of Mechanical Engineering, Babol University of technology, Babol, Iran
3Department of Materials Engineering, Isfahan University of Technology, Isfahan, Iran
Thermally sprayed coatings are intrinsically associated with residual stresses in the deposits. These stresses are varied in nature and magnitude, and have a pronounced effect on the mechanical behavior of the system. In the current study, WC-12Co coatings were deposited using HVOF thermal spraying. The sin2ψ method was used to evaluate the through thickness residual stress by means of XRD after mechanical layer removal process. A nonlinear explicit-implicit finite element model was developed to study the peening and thermal stress during the high velocity impact of WC-12Co particle and cooling the splat and coating layers. The average of through thickness residual stress using X-Ray diffraction and numerical model was -157.1 MPa and -133.4 MPa respectively. The results showed that the residual stress was compressive and had a good agreement with the experimental results in literature.
P. Bansal, P. H. Shipway, S. B. Leen, “Residual stresses in high-velocity oxy-fuel thermally sprayed coatings – Modelling the effect of particle velocity and temperature during the spraying process” Acta Materialia, 55(15) 2007, 5089.
A. Ibrahim, C. C. Berndt, “Fatigue and deformation of HVOF sprayed WC–Co coatings and hard chrome plating” Materials Science and Engineering 456 2007, 114.
M. Cabrera, H. Sataia, “Fatigue behavior of a SAE 1045 steel coated with Colmonoy 88 alloy deposited by HVOF thermal spray” Surface & Coatings Technology, 205(4) 2010, 1119.
C. Lyphout, “Residual Stresses Distribution through Thick HVOF Sprayed Inconel 718 Coatings,” J. Thermal spray Tech., 17(5) 2008, 915.
M. Jalali Azizpour, S. norouzi, H. mohammadi majd, H. Talebi, A. Ghamari, “Application of HVOF Thermal Spraying in High Speed Gas Compressor Shafts”, International Conference of Material, Mechanics and Aerospace Engineering, The Netherlands. 452010, 360.
J. Pina, A. Dias, J. L. Lebrun, “Study by X-ray diffraction and mechanical analysis of the residual stress generation during thermal spraying” Material Science Engineering, 347 2003, 21.
J. Stokes, L. Looney, “Residual stress in HVOF thermally sprayed thick deposits” Surface and Coatings Technology 177 2004, 18.
Y. Y. Santana, “Characterization and residual stresses of WC–Co thermally sprayed coatings” Surface & Coatings Technology 202 2008, 4560.
M. Jalali Azizpour, S. Norouzi, H. reza Salimijazi, R. Moharrami, “Evaluation of Residual stress in HVOF thermally sprayed coatings using electro discharge machining”, Iranian J. of surface science, 15 2013, 45.
B. S. Yilbas, A. F. M. Arif, “HVOF coating and laser treatment: three-point bending tests,” Surface & Coatings Technology 202 2007, 559.
M. Toparli, F. Sen, O. Culha, E. Celik, Journal of Materials Processing Technology 190 2007, 26.
Y. C. Tsui, T. W. Clyne, “An analytical model for prediction residual stresses in progressively deposited coatings, Part1:Planar geometry” Thin Solid Films 306 1997, 23.
R. Ghelichi, S. Bafgerifard, D. MacDonald “Experimental and Numerical study of Residual Study in Cold Spray” Applied Surface Sience, 288 2014, 26.
H. L. de Villiers Lovelock, “Powder/Processing Structure Relationships in WC-Co Thermal Spray Coatings: A Review of the Published Literature”, Journal of Thermal Spray Technology, Volume 7(3)357, 1998.
S. Thaiwatthana, N. Jantaping, P. Limthongkul, “Residual stress measurement of low temperature plasma surface alloyed layer using X-ray diffraction techniques,” Journal of surface engineering, 28 (5) 2012, 273.
J. K. N. Murthy, D. S. Rao, B. Venkataraman, “Effect of grinding on the erosion behavior of a WC–Co–Cr coating deposited by HVOF and detonation gun spray processes”, Wear, 249 2001, 592.
GR. Johnson, Cook WH. In: Proceedings of the 7th international symposium on ballistics. The Netherlands; 541 1983.
S. P. Jaspers, J. H. Dautzenberg, “Material behavior in conditions similar to metal cutting: flow stress in the primary shear zone” Journal of Materials Processing Technology, 122 2002, 322.
P. J. Hazell, C. J. Roberson, M. Moutinho, “The design of mosaic armour: the influence of tile-size on the ballistic performance,” Materials and Design, 29 (8) 1497.
S. Kamnis, S. Gu, “Study of In-Flight and Impact Dynamics of Nonspherical Particles from HVOF Guns” :LK Journal of Thermal Spray Technology, 19(1) 2010, 31.
Hutchings IM. Wear; 701981, 269.
H. Assadi, F. Gartner, T. Stoltenhoff, H. Kreye. “Bonding mechanism in cold gas spraying” Acta Mater; 51 2003, 4379.