마이크로 드로플릿 셀 기법과 임계공식온도 측정 기법을 이용한 적층가공 Ti-6Al-4V 합금의 내식성 평가

• Published in: Corrosion science and technology Vol. 17; no. 3; pp. 129 - 137
• Main Authors: 서동일, Dong-il Seo, 이재봉, Jae-bong Lee
• Format: Journal Article
• Language: Korean
• Published: 한국부식방식학회 30.06.2018
• Subjects: Additive manufacturing; Corrosion Resistance; Micro-droplet cell; Ti-6Al-4V; α; 금속공학; {\alpha}^{\prime}; Corrosion Resistance; Additive manufacturing; Ti-6Al-4V; Micro-droplet cell
• ISSN: 1598-6462; 2288-6524
• DOI: 10.14773/cst.2018.17.3.129

The resistance to corrosion of additive manufactured (3D printing) Ti-6Al-4V alloys was investigated using micro-electrochemical tests. In terms of corrosion resistance, the acicular martensitic α' phase in such additive manufactured Ti-6Al-4V was the focus of attention, and its behavior was distinct from that of conventional subtractive manufactured Ti-6Al-4V. To order to identify α' phase, XRD tests were performed and micro Vickers hardness was measured for different grains (bright and dark grains) in the additive manufactured Ti-6Al-4V alloy. Micro-electrochemical tests were performed to measure corrosion resistance of bright and dark grains in the additive manufactured Ti-6Al-4V alloy with specially designed electrochemical micro-droplet cell. Critical pitting temperature (CPT) measurement was performed to evaluate the resistance to pitting corrosion of additive manufactured Ti-6Al-4V alloys with different volumes of α' phase and subtractive manufactured Ti-6Al-4V alloy. The dark grains of the laminated Ti-6Al-4V alloy distributed broader than the bright grains measured with low microhardness. The dark grains of the Ti-6Al-4V alloy, which was rich in martensite α ', had lower general corrosion and pitting resistance than bright grains. As the fraction of martensite α 'phase increased, the resistance to the pitting corrosion decreased.