Abstract
Titanium is one of the super-hard alloys and the fastest-growing materials used in defense, aerospace, and biomedical sectors due to its outstanding properties like high strength to weight ratio, better corrosion resistance, and good fatigue life. In traditional machining methods like turning, milling, and grinding, the required surface finish for biomedical and aerospace applications cannot be obtained for titanium alloys. To overcome these problems in aerospace and medical areas, one of the latest innovative methods employed is cryogenic burnishing and HA powder burnishing. In this work, surface characterization is studied using the scanning electron microscope and corrosion analysis is studied using an electrochemical corrosion test. SEM micrographs and corrosion analysis confirmed that better surface roughness is obtained in traditional burnishing and better corrosion resistance is obtained in the HA powder burnishing.
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Madhukar, S., Kumar, G.A., Suman, D.S., Quadri, S.A.P., Ashok Kumar, U. (2022). Analysis of Microstructural Features and Corrosion Resistance of Cryogenic Burnished and Hydroxyapatite Powder Burnished Titanium Alloy. In: Reddy, A.N.R., Marla, D., Favorskaya, M.N., Satapathy, S.C. (eds) Intelligent Manufacturing and Energy Sustainability. Smart Innovation, Systems and Technologies, vol 265. Springer, Singapore. https://doi.org/10.1007/978-981-16-6482-3_57
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