Mechanical Properties of Heat‐cured Whey Protein‐based Edible Films Compared with Collagen Casings under Sausage Manufacturing Conditions

ABSTRACT: Edible films were produced using whey protein isolate (WPI) (5%, w/v), glycerol (3.3%, w/v) and candelilla wax (0.8%, w/v). One set of films was heat cured at 90°C for 12 h and another at 80°C for 24 h. WPI-based films, together with collagen films, were put through a meat-processing scheme typical of Polish sausage manufacture. Meat-processing conditions were stage 1: 57°C/60 min/36% RH; stage 2: 65°C/90 min/60% RH; and stage 3: 77°C/30 min/80% RH. Effects of meat-processing conditions on mechanical properties: tensile strength (TS), elongation (%E), and apparent modulus (AM) were determined. All films remained intact throughout the process. TS, %E, and AM of collagen films did not change during the multistage cooking process. The %E of heat-cured WPI films was similar to that of collagen films and also did not change during the cooking stages. The TS and AM of both heat-cured WPI-based films were initially lower than collagen films and continued to decline during the cooking stages. TS and AM of both films at the end of cooking were lower (P < 0.05) than films that did not go through the multistage cooking process.

[1]  M. A. Tung,et al.  Barrier and tensile properties of transglutaminase cross-linked gelatin films as affected by relative humidity, temperature, and glycerol content , 1999 .

[2]  Michael O'Sullivan,et al.  Modeling the effect of glycerol on the moisture sorption behavior of whey protein edible films , 2000 .

[3]  M. Hanna,et al.  Solubility, tensile, and color properties of modified soy protein isolate films. , 2000, Journal of agricultural and food chemistry.

[4]  R. Hernandez,et al.  Physical, Thermal, and Barrier Characterization of Casein‐Wax‐Based Edible Films , 2002 .

[5]  M. Lacroix,et al.  Mechanical and structural properties of milk protein edible films cross-linked by heating and gamma-irradiation. , 2000, Journal of agricultural and food chemistry.

[6]  J. Krochta,et al.  Denaturation Time and Temperature Effects on Solubility, Tensile Properties, and Oxygen Permeability of Whey Protein Edible Films , 2001 .

[7]  S. J. Kim,et al.  Solubility and moisture sorption isotherms of whey-protein-based edible films as influenced by lipid and plasticizer incorporation. , 2001, Journal of agricultural and food chemistry.

[8]  W. Osburn,et al.  Inhibition of Listeria monocytogenes on Hot Dogs Using Antimicrobial Whey Protein‐based Edible Casings , 2003 .

[9]  M. Hanna,et al.  Heat Curing of Soy Protein Films at Selected Temperatures and Pressures , 2002 .

[10]  K. S. Miller,et al.  Heat Curing of Whey Protein Films , 1997 .

[11]  Aristippos Gennadios,et al.  Heat curing of soy protein films , 1996 .

[12]  G. S. Banker Film coating theory and practice. , 1966, Journal of pharmaceutical sciences.