Unprocessed native starches are structurally too weak and functionally too restricted for application in today's advanced food technologies. Processing is necessary to engender a range of functionality. Naturals or natives starches can be modified by using several methods physical, chemical, enzymatic or combined, according industrial purposes. In this work, native corn starch was hydrolyzed by hydrochloric acid solution and investigated by using thermoanalytical techniques (thermogravimetry - TG, differential thermal analysis - DTA and differential scanning calorimetry - DSC), as well as optical microscopy and X-ray diffractometry. After acid treatment at 30 and 50°C, a decrease of gelatinization enthalpy (ΔHgel) was verified. Optical microscopy and X-ray diffractometry allowed us to verify the granules contorn and rugosity typical of cereal starches.
Pinhão and corn starches are submitted to phosphating with sodium tripolyphosphate and their properties are evaluated by thermogravimetry, differential scanning calorimetry, viscoamylography, X‐ray powder diffractometry, field emission gun‐scanning electron microscopy analysis. The phosphating process is divided into three steps to analyse the behaviour of the sample on exposure to phosphate groups. After the modification, there is a decrease in the transition temperatures and gelatinisation enthalpy of both starches. During the three phases of phosphating, small differences are observed in the thermal stability of the modified samples, but a lower value is obtained for corn starch after the third stage. The decrease in pasting temperature is accompanied by an increase in the peak viscosity of the starch suspensions, however, higher values for setback and breakdown are also recorded. The degree of relative crystallinity of the phosphated starches increases, and from microscopy it is possible to observe the presence of crystals of sodium tripolyphosphate during phosphating process.
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