한국표면공학회지 (53권6호 351-359)
Effect of Na3PO4 Concentration on the Formation Behavior and Properties of PEO Films on AA2024
알루미늄 2024 합금의 플라즈마 전해산화 피막의 형성 거동 및 피막 물성에 미치는 인산나트륨 농도의 영향
김주석;신헌철;문성모;
Kim, Juseok;Shin, Heon-cheol;Moon, Sungmo;
한국재료연구원 표면재료연구본부;부산대학교 재료공학부;
Surface Materials Division, Korea Institute of Materials Science;Department of Materials Science and Engineering, Pusan National University;
Formation behavior and properties of PEO (Plasma Electrolytic Oxidation) film on AA2024 were investigated under application of pulsed current as a function of Na3PO4 concentration in 0.05 M Na2SiO3 solution by analyzing voltage-time behavior, in-situ observation of arc generation, observation of surface morphology and measurements of thickness and surface roughness. Arc generation voltage decreased with increasing Na3PO4 concentration. Color difference of PEO films between edge and inner part disappeared by addition of Na3PO4. It was also observed that size of nodules on PEO film decreased with increasing Na3PO4 concentration. Thickness of PEO films formed on AA2024 increased with increasing Na3PO4 concentration. Whereas, surface roughness of PEO films decreased with increasing Na3PO4 concentration up to 0.05 M of Na3PO4 which is attributed to the deceased size of nodules on the PEO films. However, the surface roughness increased with increasing Na3PO4 concentration more than 0.07 M of Na3PO4 which seems to be due to the formation of non-uniform PEO films with smooth surface and large size pores formed by orange-colored big arcs. The experimental results suggest that added sodium phosphate less than 0.2 M in an alkaline silicate solution can contribute to the formation of relatively thick and uniform thickness of PEO films under arc generation voltage lower than 300 V.
Plasma electrolytic oxidation;Phosphate concentration;AA2024;Anodic oxide;