Recent trends in material research and development of composite materials are geared towards reducing cost, recycling and ensuring environmental sustainability. Agricultural waste derivatives have proven to be an alternative or complimentary reinforcement material in the development of metal matrix composites. The current work is an investigation of the microstructure and phase characterization of rice husk ash (RHA) obtained through open air burning. Scanning electron microscopy (SEM) equipped with electron dispersive spectrometry (EDS) was used for the microstructural examination, X –ray fluorescence (XRF) forthe mineralogical composition and X –ray diffraction (XRD) for the determination of phases present. Results revealed that RHA is highly siliceous with 93.8% SiO2, highly porous and fibrous material with a wide surface area. EDS profile confirmed the presence of SiO2and Al2O3. The XRD pattern revealed the presence of quartz, crystabalite and anorthite phases in the RHA. Silica is a hard substance with strong covalent bonds similar to diamond with hardness rating of 7 on Mohs scale and melting point of 1713OC. Thus,RHA can be suitable used as a reinforcing material in the development of metal matrix composites for automotive components