SENSORY PROPERTIES OF EXTRUDED CORN MEAL RELATED TO THE SPATIAL DISTRIBUTION OF PROCESS CONDITIONS

The quality determining factors of extruded products are affected by the temperature, shear and pressure generated by any input to the extruder during the short residence time (< 120s). Although the relationship of process history to measurable product qualities has been established, sensory qualities have not been well correlated to these process responses. Sensory attributes of extruded corn meal products were investigated and correlated to measured physical properties in this study. Corn meal was extruded in a twin screw extruder (Baker Perkins MPF 50/25; LD ratio 15:1) with step increases in screw speed from 200‐400 rpm, and moisture from 16‐22%. Principal component analysis (PCA) of main factors from sensory color, crispness, and adhesiveness was correlated to process torque, pressure and temperature. Spatial distribution of process response and product attributes showed crispness to be dependent on extrusion temperature. Porosity and adhesiveness were not correlated to any measured process response. PCA analysis identified significant differences in the effects of moisture and screw speed input to the extruder on product properties.