RHEOLOGICAL CHARACTERIZATION OF WET FOOD FOAMS

RHEOLOGICAL CHARACTERIZATION OF WET FOOD FOAMS

Incorporating air bubbles into foods is a technical challenge, and in all cases, the fabrication of a foam goes through a "wet foam" stage, where bubbles are diluted in the food matrix and require stabilization. Sometimes, the end product is itself a wet foam, and a popular example is ice...

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Bibliographic Details
Published in:Journal of texture studies Vol. 38; no. 2; pp. 236 - 252
Main Authors: CHÁVEZ-MONTES, B. EDGAR, CHOPLIN, LIONEL, SCHAER, ERIC
Format: Journal Article
Language:English
Published: Malden, USA Malden, USA : Blackwell Publishing Inc 01-04-2007
Blackwell Publishing Inc
Blackwell
Wiley-Blackwell
Subjects:
Aerated foods
Biological and medical sciences
Chemical and Process Engineering
dynamic tests
Engineering Sciences
foaming
foams
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
guar gum
ice cream
Methods of analysis, processing and quality control, regulation, standards
rheo-reactor
rheology
stabilizers
xanthan gum
Foam
guar gum
rheo-reactor
xanthan gum
foaming
dynamic tests
ice cream
rheology
Aerated foods
foams
stabilizers
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Summary:Incorporating air bubbles into foods is a technical challenge, and in all cases, the fabrication of a foam goes through a "wet foam" stage, where bubbles are diluted in the food matrix and require stabilization. Sometimes, the end product is itself a wet foam, and a popular example is ice cream. This article describes a study of structural aspects of wet foams, where the continuous phase is a fluid, by means of dynamic rheological tests. The effects of formulation and processing conditions on aerated food foams are studied, and an example is presented for ice cream mix. The incorporation of gas bubbles at volume fractions of 50% or less modifies moderately the bulk rheological properties, and their effect can be predicted by the foam limit case. The continuous phase dominates to a great part the bulk's rheological behavior, and in the case of food systems, it stems from the presence of polysaccharide thickeners. This work presents an alternative approach to study the rheological properties of short life and difficult-to-sample products, such as wet food foams, in a rheo-reactor. Through the analysis of mechanical properties in oscillatory regime, the structure and stability of wet food foams can be characterized immediately after being fabricated in situ. This work presents new insights on the foaming step of ice cream mix (decoupled from the freezing step), and shows how the mechanical properties are affected by the incorporation ofbubbles, by process conditions and by the presence of thickeners and emulsifiers. This work can be a valuable guide to decide on optimal process and formulation to fabricate wet food foams (e.g., ice cream, aerated desserts) with specific mechanical properties and stability.
Bibliography:http://dx.doi.org/10.1111/j.1745-4603.2007.00096.x
ark:/67375/WNG-7H021T5B-C
ArticleID:JTXS096
istex:BAB8EED0B8E8CBB5E95636BBFFABF99CF9DC0B4E
ISSN:0022-4901
1745-4603
DOI:10.1111/j.1745-4603.2007.00096.x