Chemistry Reference
In-Depth Information
Lucey, J.A., van Vliet, T., Grolle, K., Geurts, T. and Walstra, P. (1997b) Properties of
acid casein gels made by acidification with glucono-
δ
-lactone. 1. Rheological properties.
International Dairy Journal
7
, 381-388.
Luyten, H., van Vliet, T. and Walstra, P. (1991) Characterization of the consistency of Gouda
cheese: rheological properties.
Netherland Milk Dairy Journal
45
, 33-53.
Ma, L., Drake, M.A., Barbosa-C Anovas, G.V. and Swanson, B.G. (1996) Viscoelastic proper-
ties of reduced-fat and full-fat Cheddar cheeses.
Journal of Food Science
61
(4), 821-823.
Malkin, A.Y. and Isayev, A.I. (2006)
Rheology - Concepts, Methods, & Applications
. Toronto,
Canada: ChemTec Publishing.
Marchesseau, S., Gastaldi, E., Lagaude, A. and Cuq, J.L. (1997) Influence of pH on pro-
tein interactions and microstructure of process cheese.
Journal of Dairy Science
80
(8),
1483-1489.
Matsumoto, N. and Matsumoto, F. (1977) Taste of food. Factors related to the evaluation.
Japan Journal of Cookery Science
10
, 97-101.
McCarthy, O.J. and Singh, H. (2009) Physico-chemical properties of milk. In: Fox, P.F. and
McSweeney, P., editors.
Advanced Dairy Chemistry. Volume 3: Lactose, Water, Salts and
Minor Constituents
. New York: Springer.
Meullenet, J.F., Finney, M.L. and Gaud, M. (2002) Measurement of biting velocities, and
predetermined and individual crosshead speed instrumental imitative tests for predicting
cheese hardness.
Journal of Texture Studies
33
(1), 45-58.
Mezger, T. (2006)
The Rheology Handbook: For Users of Rotational and Oscillatory Rheome-
ters
. Hannover, Germany: Vincentz Network.
Michalski, M.C., Cariou, R., Michel, F. and Garnier, C. (2002) Native vs. Damaged milk
fat globules: membrane properties affect the viscoelasticity of milk gels.
Journal of Dairy
Science
85
(10), 2451-2461.
Mortazavian, A., Rezaei, K. and Sohrabvandi, S. (2009) Application of advanced instrumen-
tal methods for yogurt analysis.
Critical Reviews in Food Science and Nutrition
49
(2),
153-163.
Mounsey, J.S. and O'Riordan, E.D. (1999) Empirical and dynamic rheological data correla-
tion to characterize melt characteristics of imitation cheese.
Journal of Food Science
64
(4),
701-703.
Nishinari, K. (2004) Rheology, food texture, and mastication.
Journal of Texture Studies
35
,
113-124.
Nolan, E.J., Holsinger, V.H. and Shieh, J.J. (1989) Dynamic rheological properties of natural
and imitation Mozzarella cheese.
Journal of Texture Studies
20
(2), 179-189.
O'Donnell, H.J. and Butler, F. (2002) Time-dependent viscosity of stirred yogurt. Part I:
Couette flow.
Journal of Food Engineering
51
(3), 249-254.
Peleg, M. (1987) The basics of solid foods rheology. In: Moskowitz, H.R., editor.
Food
Texture: Instrumental and Sensory Measurement
. New York, NY: Marcel Dekker,
pp. 3-33.
Pesenti, V. and Luginbuhl, W. (1999) Assessment of cohesion in Gruyere-type cheese by
rheological methods.
Journal of Texture Studies
30
(1), 1-16.
Phillips, L.G., Mcgiff, M.L., Barbano, D.M. and Lawless, H.T. (1995a) The influence of fat
on the sensory properties, viscosity, and color of lowfat milk.
Journal of Dairy Science
78
(6), 1258-1266.
Phillips, L.G., Mcgiff, M.L., Barbano, D.M. and Lawless, H.T. (1995b) The influence of
nonfat dry milk on the sensory properties, viscosity, and color of lowfat milks.
Journal of
Dairy Science
78
(10), 2113-2118.
Phipps, L.W. (1969) The interrelationship of the viscosity, fat content and temperature of
cream between 40
◦
and 80
◦
C.
Journal of Dairy Research
36
, 417-426.
Prentice, J.H. (1992)
Dairy Rheology. A Concise Guide
. New York, NY: VCH.
Prinz, J.F. and Lucas, P.W. (1997) An optimization model for mastication and swallowing
in mammals.
Proceedings of the Royal Society B. Biological Sciences
264
(1389), 1715-
1721.
Ramaswamy, H.S. and Basak, S. (1991) Rheology of stirred yogurts.
Journal Texture Studies
22
(2), 231-241.
