Abstract
The current study delineates the effect of incubation temperature on mechanical and electrical properties of ketchup. The analysis was done in the temperature range of 5 degrees C and 25 degrees C. Microstructure analysis of ketchup suggested the presence of cell wall components. Mechanical properties of ketchup were analyzed by spreadability and stress relaxation studies. Electrical properties of ketchup were analyzed by measuring the impedance in the frequency range of 100 Hz and 15 KHz. Spreadability study showed a higher firmness and cohesiveness in samples incubated at a lower temperature. The stress relaxation study suggested that inherent mechanical stability of the samples reached a critical lower limit at 15 degrees C. Stability of the electrical equivalent circuit of samples was highest at 5 degrees C. An increase in temperature drastically compromised the stability of electrical equivalent circuit of the samples. In gist, a variation in incubation temperature of the tomato ketchup can allow modulating not only the mechanical and viscoelastic properties, but also the electrical properties of ketchup.