Chemistry Reference
In-Depth Information
Noel, T.R., Parker, R., Ring, S.G., Tatham, A.S. 1995. The glass-transition behavior of wheat
gluten proteins. Int. J. Biol. Macromol. 17, 81-85.
Norrish, R.S. 1966. Equation for the activity coefficients and equilibrium relative humidities of
water in confectionery syrups. J. Food Technol. 1, 25-39.
Orford, P.D., Parker, R., Ring, S.G., Smith, A.C. 1989. The effect of water as a diluent on the
glass transition behavior of malto-oligosaccharides, amylose and amylopectin. Int. J. Biol.
Macromol. 11, 91-96.
Orlien, V., Risbo, J., Andersen, M.L., Skibsted, L.H. 2003. The question of high- and low-
temperature glass transition in frozen fish. Construction of the supplemented state diagram
for tuna by differential scanning calorimetry. J. Agric. Food Chem. 51, 211-217.
Ozkan, N., Walisinghe, N., Chen, X.D. 2002. Characterization of stickiness and cake formation
in whole and skim milk powders. J. Food Eng. 55, 293-303.
Ozkan, N., Withy, B., Chen, X.D. 2003. Effects of time, temperature, and pressure on the cake
formation of milk powders. J. Food Eng. 58, 355-361.
Paterson, A.H.J., Brooks, G.F., Bronlund, J.E., Foster, K.D. 2005. Development of stickiness in
amorphous lactose at constant T-Tg levels. Int. Dairy J. 15, 513-519.
Peleg, M. 1993. Assessment of a semi-empirical four parameter general model for sigmoid
moisture sorption isotherms. J. Food Proc. Eng. 16, 21-37.
Perez, J. 1994. Theories of liquid-glass transition. In: Water in Foods: Fundamental Aspects and
their Significance in relation to Processing of Foods, ISOPOW V (P. Fito, A. Mulet, B.
McKenna, eds.), pp. 89- 114, Elsevier Applied Science, London.
Perez, J., CavaillĀ“, J.Y. 1994. Temperature dependence of the molecular dynamics in amorphous
polymers through the rubber-glass transition. J. Non-Cryst. Solids 172-174, 1028-1036.
Pitzer, K.S. 1980. Electrolytes: from dilute solutions to fused salts. J. Am. Chem. Soc. 96,
2902-2906.
Pitzer, K.S., Kim, J.J. 1974. Thermodynamics of electrolytes. III: activity and osmotic coeffi-
cients for mixed electrolytes. J. Am. Chem. Soc. 96, 5701-5707.
Poirier-Brulez, F., Roudaut G., Champion, D., Tanguy, M., Simatos, D. 2006. Influence of
sucrose and water content on molecular mobility in starch-based glasses as assessed through
structure and secondary relaxation. Biopolymers 81, 63-73.
Rasmussen, D. 1969. A note about ''phase diagrams'' of frozen tissues. Biodynamica 10,
333-339.
Regand, A., Goff, H.D. 2003. Structure and ice recrystallization in frozen stabilized ice cream
model systems. Food Hydrocoll. 17, 95-102.
Regand, A., Goff, H.D. 2005. Freezing and ice recrystallization properties of sucrose solutions
containing ice structuring proteins from cold-acclimated winter wheat grass extract. J. Food
Sci. 70, E552-556.
Regand, A., Goff, H.D. 2006. Ice recrystallization inhibition in ice cream as affected by ice
structuring proteins from winter wheat grass. J. Dairy Sci. 89, 49-57.
Rennie, P.R., Chen, X.D., Hargreaves, C., Mackareth, A.R. 1999. A study of the cohesion of
dairy powders. J. Food Eng. 39, 277-284.
Roos, Y.H., Karel, M. 1991a. Applying state diagrams to food processing and development.
Food Technol. 45, 66-71.
Roos, Y.H., Karel, M. 1991b. Plasticizing effect of water on thermal behavior and crystallization
of amorphous food models. J. Food Sci. 56, 38-43.
Roos, Y.H., Karel, M. 1991c. Phase transitions of mixtures of amorphous polysaccharides and
sugars. Biotechnol. Progress 7, 49-53.
Roos, Y.H., Karel, M. 1992. Crystallization of amorphous lactose. J. Food Sci. 3, 775-777.
Roudaut, G., Dacremont, C., LeMeste, M. 1998. Influence of water on the crispness of cereal
based foods: acoustic, mechanical, and sensory studies. J. Text. Stud. 29, 199-213.
