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Ice cream is a complex food colloid including fat droplet and air cells that dispersed on the relatively frosted aqueous phase. Since ice cream is a multiphase material, the complex interactions among the phases can be happen that not yet well understood. Thus, there are many factors that influence on the texture and acceptability of ice cream.   In this research investigated  fat at the four level  ( 2.5, 5, 7.5, 10 % ) and sugar  at the three level ( 0, 50, 100 %) and effect  two types of hydrocolloids (carboxyl methyl cellulose and balangu ) each at the four level ( 0.1, 0.3 , 0.5 , 0.7 % ) on the sensory properties fat reduced ice cream by response surface methodology. In this research, modeling Obtained responses from Sensory texture analysis are done by Quadratic and 2 Factor interaction equations. Grape juice is used as replace of sugar. Increase of gum concentration has significant effect on the viscosity and raising firmness and decreased sandiness and coldness. Grape juice due to raising isomeric diversity colloid system led to decrease sandiness of texture.  Although ice cream prepared using 10% fat has grater point in the sensory properties compared to ice cream that containing 7.5% fat. But this difference was not significant. Balangu seed gum (BSG) in comparison to carboxyl methyl cellulose  did not have a significant effect (P > 0.05) on the sensory  properties  of ice cream and could use as a appropriate stabilizer. Result of sensory properties test (except consumer acceptability) used for modeling consumer acceptability by principal component analysis and coefficient of determination (R²) 96% obtained.

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In this study the effect of different amounts of gelatin (1, 2, and 3 g) and sodium caseinate (1, 2, and 3 g) on sensory characteristics, image processing and texture of chocolate mousse was investigated and the relationship between sensory parameters - device was determined using principal components analysis method. Results showed that the gelatin had a great impact on the sensory characteristics. Results of texture analyzer showed that hardness, adhesiveness, gumminess and chewiness was being greatly affected by gelatin and these parameters increased with increasing gelatin but springiness was more dependent on the sodium caseinate. Entropy, fractal dimension, bubble size and porosity decreased with increasing gelatin. The amount of spherical bubbles also showed no significant difference. Results of principal components analysis showed that some textural characteristics (hardness, gumminess and chewiness) had close relationship.  

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