References
- Hamdami, N.; Monteau, J.Y.; Le-Bail, A. Thermophysical Properties Evolution of French Partly Baked Bread During Freezing. Food Research International 2004, 37, 703–713.
- Diaz-Tenorio, L.M.; Garcia-Carreno, F.L.; Pacheco-Aguilar, R. Comparison of Freezing and Thawing Treatments on Muscle Properties of Whiteleg Shrimp (Litopenaeus vannamei). Journal of Food Biochemistry 2007, 31, 563–576.
- Talens, P.; Martinez-Navarrete, N.; Fito, P.; Chiralt, A. Changes in Optical and Mechanical Properties During Osmo Dehydrofreezing of Kiwi Fruit. Innovative Food Science and Emerging Technologies 2001, 3,191–199.
- Kuo, M.I.; Gunasekaran, S. Effect of Freezing and Frozen Storage on Microstructure of Mozzarella and Pizza Cheeses. LWT-Food Science and Technology 2009, 42, 9–16.
- Xu, X.; Jeronimidis, G.; Atkins, A.G. On the Yield Stress of Frozen Sucrose Solutions. Journal of Materials Science 2003, 38, 245–25.
- McKellar, A.; Paterson, J.; Pham, Q.T. A Comparison of Two Models for Stresses and Strains During Food Freezing. Journal of Food Engineering 2009, 95, 142–150.
- Dobraszczy, B.J.; Atkins, A.G.; Jeronimidis, G.; Purslow, P.P. Fracture Toughness of Frozen Meat. Meat Science 1987, 21, 25–49.
- Konstance, R.P. Axial Compression Properties of Kamaboko. Journal of Food Science 1991, 56, 1287–1291.
- Luyten, H.; Van Vliet, T. Fracture Properties of Starch Gels and their Rate Dependency. Journal of Texture Studies 1995, 26, 281–298.
- Raj, A.S.; Jayaram, R.; Dev, S.; Ravikumar, S. A Review on Recent Advances in Meat Processing. International Journal of Current Microbiology and Applied Sciences 2013, 2, 169–176.
- Ayati, S.-V.; Hamdami, N.; Le-Bail, A. Frozen Sangak Dough and Bread Properties: Impact of Pre-fermentation and Freezing Rate. International Journal of Food Properties 2016. DOI:10.1080/10942912.2016.1180535.
- Tremeac, B.; Hayert, M.; Le-Bail, A. Mechanical Properties of Tylose Gel and Chocolate in the Freezing Range. International Journal of Refrigeration 2008, 31, 867–873.
- Shi, X.; Datta, A.K.; Mukherjee, Y. Thermal Stresses from Large Volumetric Expansion During Freezing of Biomaterials. Journal of Biomechanical Engineering 1998a, 120, 720–726.
- Shi, X.; Datta, A.K.; Throops, J.A. Mechanical Property Changes During Freezing of a Biomaterial. Transactions of the American Society of Agricaltural Engineers 1998b, 41, 1407–1414.
- Kim, N.K.; Hung, Y.C. Freeze-Cracking in Foods as Affected by Physical Properties. Journal of Food Science 1994, 59, 669–674.
- Steffe, J.F. Rheological Methods in Food Process Engineering; Second edition, Freeman Press: East Lansing, MI, 1996; 418 pp.
- Pounder, E.R. The Physics of Ice; Pergamon Press: Oxford, England, 1965; 151 pp.
- Rabin, Y.; Steif, P.S. Thermal Sresses in a Freezing Sphere and Its Application to Cryobiology. Journal of Applied Machanics 1998, 65, 328–333..
- Pham, Q.T.; Le-Bail, A.; Hayert, M.; Tremeac, B. Stresses and Cracking in Freezing Spherical Foods: A Numerical Model. Journal of Food Engineering 2005, 71, 408–418.
- Shi, X.; Datta, A.K.; Mukherjee, S. Thermal Fracture in a Biomaterial During Rapid Freezing. Journal of Thermal Stresses 1999, 22, 275–292.
- Burubai, W.; Amula, E.; Davies, R.M.; Etekpe, G.W.W.; Daworiye, S.P. Determination of Poisson’s Ratio and Elastic Modulus of African Nutmeg (Monodora myristica). International Agrophysics 2008, 22, 99–102.
- Schwatzberg, H. Effective Heat Capacities for the Freezing and Thawing of Foods. Journal of Food Science 1976, 41, 152–156.
- Ashtiani, S.-H.M.; Salarikia, A.; Golzarian, M.R.; Emadi, B. Non-Destructive Estimation of Mechanical and Chemical Properties of Persimmons by Ultrasonic Spectroscopy. International Journal of Food Properties 2016, 16, 1522–1534.