The effect of microwave heating and conventional heating towards the physicochemical and
functional properties of corn and rice flour with 30% moisture content in water suspension at
temperature of 50°C and 60°C were investigated. Conventional heat treatment was carried out
at 50°C and 60°C respectively by direct heating the moisture treated flour. Microwave heating
treatment was carried out by using domestic microwave oven at 50°C and 60°C respectively.
The amylose content, particle size diameter, and gelatinization temperature are increasing in
microwave and conventional heat treated corn and rice flour. Decreasing of pasting temperature,
swelling power and solubility of all the heat-treated starches compared to control were detected.
X-ray diffraction pattern of all control and heat treated corn and rice flour exhibit typical A-type
pattern. Scanning Electron Microscopy (SEM) has revealed the heat treated corn and rice flour
showed rougher surface, porous granules and rupture granules. There are no significance effect
of temperature differences on corn and rice flour carried out at 50°C and 60°C. Evidently,
microwave heating was effective to alter the physicochemical and functional properties of corn
and rice flour.