TY - CHAP
T1 - Methods for modelling food cellular structures and the relationship between microstructure and mechanical and rheological properties
AU - Cox, Simon John
PY - 2013/10/15
Y1 - 2013/10/15
N2 - Foams are found in many food-stuffs, for example as a means to make a product larger, to insulate it, or to change its taste and feel without any increase in weight. Understanding the local structure of a foam and the ways in which it evolves in time offer possibilities to control these functions. This chapter describes the mesoscopic structure of a foam at the level of films, Plateau borders and bubbles, and relates it to the many useful properties that a foam exhibits. Relevant dynamical properties include changes in bubble size due to inter-bubble gas diffusion (coarsening), film rupture, the re-distribution of liquid through the foam under gravity, and the effect of disorder and liquid content on a foam’s solid and liquid-like rheology.
AB - Foams are found in many food-stuffs, for example as a means to make a product larger, to insulate it, or to change its taste and feel without any increase in weight. Understanding the local structure of a foam and the ways in which it evolves in time offer possibilities to control these functions. This chapter describes the mesoscopic structure of a foam at the level of films, Plateau borders and bubbles, and relates it to the many useful properties that a foam exhibits. Relevant dynamical properties include changes in bubble size due to inter-bubble gas diffusion (coarsening), film rupture, the re-distribution of liquid through the foam under gravity, and the effect of disorder and liquid content on a foam’s solid and liquid-like rheology.
UR - http://hdl.handle.net/2160/13584
M3 - Chapter
SN - 978-0857095251
SN - 0857095250
VL - 254
T3 - Woodhead Publishing Series in Food Science, Technology and Nutrition
SP - 310
EP - 323
BT - Food microstructures: Microscopy, measurement and modelling
A2 - Morris, Vic
A2 - Groves, K
PB - Elsevier
ER -