Journal of Japan Thermal Spray Society
Online ISSN : 2186-1080
Print ISSN : 0916-6076
ISSN-L : 0916-6076
Volume 53 , Issue 2
Showing 1-2 articles out of 2 articles from the selected issue
  • Yoshito KOGA, Kazunori SAKATA, Daisuke OKA, Kouhei KUWATORI, Ichihito ...
    2016 Volume 53 Issue 2 Pages 48-54
    Published: 2016
    Released: June 23, 2016
    In order to improve a high velocity oxygen fuel (HVOF) spraying and to reduce the CO2 exhaust during the processing,Fe-based metallic glass coating,which has been sprayed by HVOF with a hydrogen gas and without a fusing process, was investigated.Crystallization phenomena of metallic glass were also evaluated at elevated temperatures.The Fe-Cr-Mo-based alloy was sprayed on mild steel by hydrogen-specific gun,and a metallographical observation reveals that the alloy is successfully coated on the substrate even by hydrogen.Then a corrosion resistance was investigated by the combined cyclic corrosion test.Formation of serious rust is prevented until 1578 h by sealing treatment even without fusion process.The metallic glass coating was heat-treated at 500 to 800℃ and then performed X-ray diffraction analysis.The broad peak from metallic glass decreases and the sharp peaks from the crystal phase appear depending on the holding time and temperature.Crystallization process could be followed the Avrami equation regarding nucleation and growth.Vickers hardness of the as-sprayed specimen is 778HV,and improved to 1029HV by crystallization of about 80%,that indicates that the nano-scopic crystallization enhance the hardness for the metallic glass.
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  • Takeshi SHINOHARA, Megumi ADACHI, Yasuyuki TAKATANI, Yoshio HARADA
    2016 Volume 53 Issue 2 Pages 55-60
    Published: 2016
    Released: June 23, 2016
    Thermal sprayed coatings are made by multiple collisions of high speed molten drops.These processes give pores and voids to thermally sprayed coatings.Voids and pores influence heat conductivity,heat resistance and corrosion resistance of coatings.Therefore measuring porosity is important for obtain details of coatings.Electroplating technique has been tried to measure porosity of thermal spray coatings.But these techniques are not considered well from the aspect of electrochemistry.In this paper we evaluated structure of plasma sprayed ceramic coating using electroplating copper deposition.We optimized condition for electroplating which can fill copper in void and pores in thermally sprayed coatings and discussed about the condition from aspect of electrochemistry.
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