July/August_AMP_Digital

A D V A N C E D M A T E R I A L S & P R O C E S S E S | J U L Y / A U G U S T 2 0 2 0 6 0 iTSSe TSS iTSSe TSS ability to measure particle temperature will likely allow opti- mizing impact temperature, along with particle impact veloci- ty, according to the desired coating properties. ~iTSSe Formore information: Dr. B. Jodoin, Mechanical Engineering, University of Ottawa, bjodoin@uottawa.ca . References 1. A. Nastic, et al., Experimental and Numerical Study of the Influence of Substrate Surface Preparation on Adhesion Mechanisms of Aluminum Cold Spray Coatings on 300M Steel Substrates, J Therm Spray Technol, 26(7), 2017. 2. R. Fernández, et al., Enhancement and Prediction of Ad- hesion Strength of Copper Cold Spray Coatings on Steel Sub- strates for Nuclear Fuel Repository. J Therm Spray Technol, 25(8), 2016. 3. N. Bay, Mechanisms Producing Metallic Bonds in Cold Welding. Weld J, 62(5), p 137, 1983. 4. S. Rahmati and B. Jodoin, Physically Based Finite Ele- ment Modeling Method to Predict Metallic Bonding in Cold Spray, J Therm Spray Technol, 29(4), p 611-629, 2020. 5. T. Stoltenhoff, H. Kreye, and H.J. Richter, An Analysis of the Cold Spray Process and its Coatings, J Therm Spray Tech- nol, 11(4), p 542-550, 2002. 6. R.C. Dykhuizen and M.F. Smith, Gas Dynamic Principles of Cold Spray, J Therm Spray Technol, 7(2), p 205-212, 1998. 7. V.F. Kosarev, et al., On Some Aspects of Gas Dynam- ics of the Cold Spray Process, J Therm Spray Technol, 12(2), p 265-281, 2003. 8. M. Grujicic, et al., Analysis of the Impact Velocity of Pow- der Particles in the Cold-Gas Dynamic-Spray Process, Mater Sci Eng A, 368(1-2), p 222-230, 2004. 9. S.V. Klinkov, V.F. Kosarev, and M. Rein, Cold Spray Depo- sition: Significance of Particle Impact Phenomena, Aerosp Sci Technol, 9(7), p 582-591, 2005. 10. C-J Li, W-Y Li, and H. Liao, Examination of the Critical Ve- locity for Deposition of Particles in Cold Spraying, J Therm Spray Technol, 15(2), p 212-222, 2006. 11. H. Assadi, et al., On Parameter Selection in Cold Spray- ing, J Therm Spray Technol, 20(6), p 1161-1176, 2011. 12. D. MacDonald, A. Nastic, andB. Jodoin, Cold-Spray Coat- ings Recent Trends and Future Perspectives, p 421-450, ed. P. Cavaliere, Springer, 2018. 13. T. Schmidt, et al., Development of a Generalized Param- eter Window for Cold Spray Deposition, Acta Mater, 54(3), p 729-742, 2006. 14. Y. Xie, et al., Investigation on the Influence of Particle Preheating Temperature on Bonding of Cold-Sprayed Nickel Coatings, Surf Coatings Technol, 318, p 99-105, 2017. 15. M. Yu, et al., Effect of Particle and Substrate Preheat- ing on Particle Deformation Behavior in Cold Spraying, Surf Coatings Technol, 220, p 174-178, 2013. 16. C. Chen, et al., Cold Spraying of Thermally Softened Ni-Coated Fesial Composite Powder: Microstructure Charac- terization, Tribological Performance and Magnetic Property. Mater Des, 160, p 270-283, 2018. 17. S. Yin, et al., Deposition Features of Cold Sprayed Cop- per Particles on Preheated Substrate, Surf Coatings Technol, 268, p 252-256, 2015. 18. W. Sun, et al., Deposition Characteristics of Cold Sprayed Inconel 718 Particles on Inconel 718 Substrates with Differ- ent Surface Conditions, Mater Sci Eng A, 720, p 75-84, 2018. 19. R. Ortiz-Fernandez and B. Jodoin, Hybrid Additive Man- ufacturing Technology: InductionHeating Cold Spray—Part I: Fundamentals of Deposition Process, J ThermSpray Technol, 29(4), p 684-699, 2020. 20. M. Perton, et al., Effect of Pulsed Laser Ablation and Continuous Laser Heating on the Adhesion and Cohesion of Cold Sprayed Ti-6Al-4V Coatings, J Therm Spray Technol, p 1322-1333, 2012. 21. D.K. Christoulis, et al., Cold-Spraying Coupled to Na- no-Pulsed Nd-Yag Laser Surface Pre-Treatment, J Therm Spray Technol, 19(5), p 1062-1073, 2010. 22. Y. Danlos, et al., Ablation Laser and Heating Laser Combined to Cold Spraying, Surf Coatings Technol, 205(4), p 1055-1059, 2010. 23. M. Kulmala and P. Vuoristo, Influence of Process Con- ditions in Laser-Assisted Low-Pressure Cold Spraying, Surf Coatings Technol, 202(18), p 4503-4508, 2008. 24. A. Nastic and B. Jodoin, Evaluation of Heat Transfer Transport Coefficient for Cold Spray Through Computational Fluid Dynamics and Particle In-Flight Temperature Measure- ment using a High-Speed IR Camera, J Therm Spray Technol, 27(8), p 1491-1517, 2018. FEATURE 10