Electrochemical Characteristic of WC Thermal Spray Materials in Na_2SO_4 Solution(Student Poster Session)
スポンサーリンク
概要
- 論文の詳細を見る
WC-Co thermal spray coating is widely applied for high wear resistance coatings. But it is also known that the coating has poor corrosion resistance in aqueous solution. In this study, two kinds of powder, WC-12Co and WC-10Co-4Cr, were used to form the coating by high velocity oxygen-fuel flame spraying on mild steel. Corrosion behavior in Na_2SO_4 solution was investigated under anodic polarization, impedance response and distribution of potential on the coating surface. The current density of WC-12Co thermal spray coating in passive regions changed with the pH of the aqueous solution, becoming high in neutral or alkaline solutions, and low in acid. Therefore, WC-12Co thermal spray coating shows poor corrosion resistance in neutral and alkaline solutions. However, since the current density on WC-10Co-4Cr thermal spray coating, in which Cr is added, to the WC-Co system, is lower than that in WC-12Co thermal spray coating for each pH, the former has higher corrosion resistance. On the other hand, it was found that changes in impedance diagram at constant potential corresponded to the changes in the polarization curve. Therefore, it was suggested that the reaction on the corrosion interface could be estimated from the changes in the diagram. The corrosion reaction rate for WC-10Co-4Cr thermal spray coating is better than that of WC-12Co thermal spray coating. Thus, it is thought that control of the dissolution of the coating and substrate components is owing to the early formation and recovery of the passive state of the coatings.
- 一般社団法人日本機械学会の論文
- 2001-10-20
著者
-
Harada Yoshio
TOCALO Co.
-
KIDO Mitsuo
Department of Mechanical Systems Engineering, Faculty of Technology, Hiroshima Institute of Technolo
-
TAKEDA Mutsumi
Hiroshima Institute of Technology
-
KIDO Mitsuo
Hiroshima Institute of Technology
-
Morihiro Naoki
Department Of Mechanical Systems Engineering Faculty Of Technology Hiroshima Institute Of Technology
-
Kido Mitsuo
Department Of Mechanical Systems Engineering Faculty Of Technology Hiroshima Institute Of Technology
-
Kido Mitsuo
Department Of Mechanical Systems Engineering Faculty Of Engineering Hiroshima Institute Of Technolog
-
TAKEDA Mutsumi
Graduate School, Hiroshima Institute of Technology
-
MORIHIRO Naoki
Graduate School, Hiroshima Institute of Technology
-
KATAYAMA Gonojo
Department of Mechanical Systems Engineering, Faculty of Technology, Hiroshima Institute of Technolo
-
Katayama Gonojo
Department Of Mechanical Systems Engineering Faculty Of Technology Hiroshima Institute Of Technology
関連論文
- SB-12-5(119) Collaborative Research on Themo-Mechanical and Isothermal Low-Cycle Fatigue Strength of Ni-Base Superalloys and the Protective Coatings at Elevated Temperatures in Japan.(Thermo-Mechanical Fatigue of Superalloys & Coatings)
- Undesirable Effect of Local Cellular Transformation in Microstructurally-Controlled Ni-base Superalloys Subjected to Previous Damage on High Temperature Fatigue Strength and the Prevention : For Recoating and Refurbishment Technology
- OS11(4)-17(OS11W0021) Fatigue Behavior of Thermally Sprayed Materials at High Temperature
- An XPS and Atomic Force Microscopy Study of the Micro-Wetting Behavior of Water on Pure Chromium
- Corrosion Behavior of Thermally Sprayed WC Coating in Na_2SO_4 Aqueous Solution
- Electrochemical Characteristic of WC Thermal Spray Materials in Na_2SO_4 Solution(Student Poster Session)
- Corrosion Behavior of WC Thermal Spray Coatings in Na_2SO_4 Solution
- Adhesion of Atmospheric Micro-Contaminants on SUS304 Steel and Removal by UV Illumination
- Corrosion Behavior of Pure Iron by Different Droplet Volume of Sulfuric Acid Solution
- EVALUATION OF FATIGUE STRENGTHS OF WC CERMET- AND 13Cr STEEL-SPRAYED MATERIALS
- FATIGUE STRENGTH AND FRACTURE MECHANISMS OF WC CERMET-SPRAYED STEEL
- Influence of Ultrasound of Corrosion Behavior of SUS304 Stainless Steel with Crevice
- Estimated and Evaluated Residual Stress by Vickers Indentation in Several Structural Ceramics
- Thermal Diffusivity Measurement for Thermal Spray Coating Attached to Substrate Using Laser Flash Method
- Removal of Thermally Sprayed Coatings Using a Plain Water Jet