Electrically enhanced agro-hybrid aluminum nanocomposite alloy for materials resistivity multifunctional application

摘要

This study shows that materials development provides stringent susceptibility not only for mechanical deformation but also for electrical application. An attempt was made to develop nano-sized cow bone particulate (CP) as an agro-based additive for the production of aluminum composite alloy for the electrical system through functional ammeter-voltmeter quick response techniques. The results show that cow bone nano additive gives more positive passive, active characteristics on the developed alloy with an electrical resistivity of 2.35. Qmm for 15% additive as compared to the as-received sample with 0.42. Qmm. The reverse progression was seen with electrical conductivity results. It is essential to established from the material performance that the buildup of structural geometry informs new orientation that promotes material electrical resistivity.