Title : ( Impact of HHP-treated starches on LAOS, tribology, and steady shear behavior of reduced-fat O/W emulsions )
Authors: Ali Heydari , Seyed Mohammad Ali Razavi ,Access to full-text not allowed by authors
Abstract
The present study aimed to scrutinize the influence of high hydrostatic pressure (HHP)-treated starches, including wheat starch (HPWS), corn starch (HPCS), and waxy corn starch (HPWCS) at different concentrations (10%, 15%, and 20%) as fat replacers on the large amplitude oscillatory shear (LAOS), tribological, and steady shear rheological characteristics of model O/W emulsions at three fat reduction (FR) levels (25%, 50%, and 75%). By increasing the FR level, greater nonlinearity, higher friction factor, and lower recovery percentage were observed for HPWS- and HPCS-contained samples, though HPWCS-contained samples showed lower nonlinearity. Using HHP-treated starches with higher concentration at each FR level, the extent of nonlinearity (regardless of elastic or viscous) and the quantities of friction factor decreased meaningfully and the values of strain stiffening and shear thickening factors increased. The values of G3′/G1′ of reduced-fat emulsions were significantly higher (24%–72%) than the magnitudes of G3\\\"/G1\\\" (except for the 75% reduced-fat samples).
Keywords
, Fat mimetic, Modification, Lissajous plot, Nonlinear viscoelastic, Rheology@article{paperid:1089634,
author = {Heydari, Ali and Razavi, Seyed Mohammad Ali},
title = {Impact of HHP-treated starches on LAOS, tribology, and steady shear behavior of reduced-fat O/W emulsions},
journal = {Innovative Food Science and Emerging Technologies},
year = {2022},
volume = {78},
number = {6},
month = {June},
issn = {1466-8564},
pages = {103006--103006},
numpages = {0},
keywords = {Fat mimetic; Modification; Lissajous plot; Nonlinear viscoelastic; Rheology},
}
%0 Journal Article
%T Impact of HHP-treated starches on LAOS, tribology, and steady shear behavior of reduced-fat O/W emulsions
%A Heydari, Ali
%A Razavi, Seyed Mohammad Ali
%J Innovative Food Science and Emerging Technologies
%@ 1466-8564
%D 2022