Simulation and application of a HVOF process for MCrAIY thermal spraying Young-myung YangHanlin LiaoChristian Coddet OriginalPaper Pages: 36 - 43
In situ characterization of small-particle plasma sprayed powders Y. J. SuK. T. FaberT. F. Bernecki OriginalPaper Pages: 52 - 61
Finite element analysis of effect of substrate surface roughness on liquid droplet impact and flattening process Z. G. FengM. DomaszewskiC. Coddet OriginalPaper Pages: 62 - 68
Effect of interface wetting on flattening of freely fallen metal droplet onto flat substrate surface Masahiro FukumotoEiji NishiokaToshikazu Matsubara OriginalPaper Pages: 69 - 74
Independent control of HVOF particle velocity and temperature T. C. HansonC. M. HackettG. S. Settles OriginalPaper Pages: 75 - 85
Evaluation of four high velocity thermal spray guns using WC-10% Co-4% Cr cermets Jean-Gabriel LegouxBernard ArsenaultLuc Leblanc OriginalPaper Pages: 86 - 94
Effect of post-heat treatment on the corrosion resistance of NiWCrBSi HVOF coatings in chloride solution L. GilM. A. PratoM. H. Staia OriginalPaper Pages: 95 - 99
TiN-TiB2 composite coatings reactively produced by electrothermally exploded powder spray Hideki TamuraFu-Gao WeiTakahiko Kodama OriginalPaper Pages: 100 - 106
Numerical study of the relative importance of turbulence, particle size and density, and injection parameters on particle behavior during thermal plasma spraying R. L. WilliamsonJ. R. FinckeC. H. Chang OriginalPaper Pages: 107 - 118
High velocity pulsed plasma thermal spray F. D. WitherspoonD. W. MasseyT. A. Mozhi OriginalPaper Pages: 119 - 128
Study on plasma sprayed boron carbide coating Yi ZengSoo W. LeeChuanxian Ding OriginalPaper Pages: 129 - 133