Development and evaluation of edible films based on cassava starch, whey protein, and bees wax.

Cortés-Rodríguez, Misael; Villegas-Yépez, Camilo; Gil González, Jesús H; Rodríguez, Pablo Emilio; Ortega-Toro, Rodrigo

Cortés-Rodríguez, Misael; Villegas-Yépez, Camilo; Gil González, Jesús H; Rodríguez, Pablo Emilio; Ortega-Toro, Rodrigo.

Afiliação

Cortés-Rodríguez M; Universidad Nacional de Colombia sede Medellín, Facultad Ciencias Agrarias, Departamento Ingeniería Agrícola y Alimentos, Cra. 65 No. 59A-110, Medellín, Colombia.
Villegas-Yépez C; Universidad Nacional de Colombia sede Medellín, Facultad Ciencias Agrarias, Departamento Ingeniería Agrícola y Alimentos, Cra. 65 No. 59A-110, Medellín, Colombia.
Gil González JH; Universidad Nacional de Colombia sede Medellín, Facultad Ciencias Agrarias, Departamento Ingeniería Agrícola y Alimentos, Cra. 65 No. 59A-110, Medellín, Colombia.
Rodríguez PE; Corporación Colombiana de Investigación Agropecuaria (AGROSAVIA), Colombia.
Ortega-Toro R; Universidad de Cartagena, Programa de Ingeniería de Alimentos, Food Packaging and Shelf Life Research Group (FP&SL), Research Group in Complex Fluids Engineering and Food Rheology (IFCRA), Avenida del Consulado Calle 30 No. 48 - 152, Cartagena de Indias D.T. y C., Colombia.

Heliyon ; 6(9): e04884, 2020 Sep.

Article em En | MEDLINE | ID: mdl-32984596

RESUMO

Films and edible coatings based on biopolymers have been developed as a packaging, which can be obtained from biodegradable materials and have properties similar to common plastics. These edible materials have many applications in the food industry, preventing mass transfer between the product and the surrounding environment. The objective of this study was to develop and evaluate the physicochemical and mechanical properties of edible films based on cassava starch (CS), whey protein (WP), and beeswax (BW). Response surface methodology has been used and the experiments were carried out based on face-centred composite design. On the other hand, three CS-based controls were formulated to evaluate the effect of the inclusion of WP and BW. The optimization of multiple responses established the optimal formulation: CS (3.17 %), WP (1.30 %), BW (0.50 %), presenting the following response variables: tensile stress (1.92 MPa), elongation (40.4 %), Young's modulus (42.1 MPa), water vapor permeability 1.79 × 10-11 (g mm/s cm2 Pa), swelling capacity (300.3 %), thickness (0.128 mm), moisture content (6.74 %), and colour: lightness (89.9), chromaticity a∗ (-1.8), chromaticity b∗ (7.7), saturation (9.9), tone (101.1°), and yellowness index (17.7). The selection and evaluation of this optimal formulation are essential because it is the material that shows the best possible mechanical and physicochemical properties using the studied components. The results, especially its good mechanical properties and low permeability to water vapour, would allow its application as a coating for fruits, vegetables, among others, effectively delaying its weight loss due to dehydration.

Palavras-chave

Biodegradable films; Food science; Food technology; Manihot esculenta; Materials science; Optimal formulation; Physical properties

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Heliyon Ano de publicação: 2020 Tipo de documento: Article País de afiliação: Colômbia País de publicação: Reino Unido

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