The addition of B 4C was supported to enhance the nanohardness of the coating. ![]() An occurrence of formal treatment for obtaining Kissinger’s assessment mechanics for various oxidization levels is additionally valid. It was absolutely unconcealed that the Ti-6Al-4V-B 4C film oxidization may be a multi-staged procedure subject on the heating rate. It was proven that the addition of B 4C not only alters the thermal stability but also transforms the mechanism of oxidation. The thermal behaviour of coating was improved by B 4C addition those coatings are recommended for practical application. Thermal analysis of Ti-6Al-4V-B 4C coatings with varying percentage of B 4C resulted in the establishment of an exothermic peak, for the reason that reduction in the oxidation of coating. ![]() % of B 4C adding on microstructure, thermal behaviour and hardness of Ti-6Al-4V-B 4C coatings were investigated. Boron carbide (B 4C) reinforced Ti-6Al-4V thin films were deposited through the magnetron sputtering coating technique. ![]() Thermogravimetric analysis (TG) is a rapid method for the determination of protecting the ability of thin film coatings in addition to oxidation kinetics.
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