Beatriz Padilla-Rizo scite author profile

[Introducción]: El pelo bovino, subproducto del proceso de trasformación de pieles, es rico en proteína queratina. Sin embargo, es poco aprovechado y su disposición final, generalmente, es el relleno sanitario. [Objetivo]: Este trabajo promueve su reciclado, a través de su transformación a un producto alimenticio para animales, aplicando un proceso de hidrólisis hidrotérmica. [Metodología]: Para ello, el pelo fue recolectado en una tenería local, lavado, molido (<0.84 mm) e hidrolizado (130 °C/2.0 atm/90 min). Después, se caracterizó en su análisis elemental, termogravimétrico, proximal y calidad microbiológica. La presencia de metales pesados y minerales, fue determinado mediante espectrometría de emisión atómica de plasma acoplado por inducción y el perfil de aminoácidos mediante cromatografía de líquidos de alta resolución. [Resultados]: Con el proceso propuesto, dicho material quedó libre de olor desagradable y textura suave y homogénea. Su estabilidad térmica fue menor a 170 °C. Presentó un contenido elemental de nitrógeno (13.80±0.61 %), carbono (46.23±1.18 %) y azufre (2.00±0.13 %). El análisis proximal reveló las siguientes composiciones (%): proteína bruta (85.2±2.5), digestible en pepsina (71.36±2.9), ceniza (2.20±0.1), extracto etéreo (4.90±0.4), extracto libre de nitrógeno (0.17±0.01) y humedad (7.53±0.2). Algunos minerales fueron encontrados (calcio, potasio, fósforo). Metales pesados y salmonella spp no fueron detectados. Se obtuvieron aminoácidos esenciales para la nutrición animal (lisina, metionina, treonina, arginina y valina), con recuperaciones mayores al 90 %. [Conclusiones]: Con base en esta información, el pelo bovino residual puede ser reciclado, a las condiciones propuestas, para su transformación a un producto alimenticio alternativo, que provee nutrientes para animales.

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Mechanical and performance properties of re-vulcanized blends of GTR/NR

Zitzumbo

Becerra

Padilla-Rizo

et al. 2022

Progress in Rubber, Plastics and Recycling Technology

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The effect of natural rubber (NR) on the mechanical and performance properties of ground tire rubber (GTR) has been investigated. The mechanical properties of vulcanized GTR/NR blends were determined in a universal testing machine. It was found a decreasing in the mechanical properties of the GTR/NR blends as the number of re-vulcanization processes increases. This behavior was attributed to the decrease in the concentration on GTR in the vulcanized GTR/NR blend with respect to the next one, and to a structural net degradation into the re-vulcanized GTR/NR blend due to the reversion process (over vulcanization). In the loss modulus charts was observed that the peaks of the curves got smaller and wide as the re-vulcanization process increased, due to the mechanical loses and elastic gains of the GTR/NR re-vulcanized blends. On the other hand, in the performance results was found that the cut growth values of Flexion Ross were more affected by the thickness of the plaque of vulcanized rubber than for the number of re-vulcanization processes of the GTR/NR blend. In addition, as the re-vulcanization processes increased, the structural degradation of the tridimensional cross-linked net, increased as well, more severely from the fourth re-vulcanization process. It could be concluded that the GTR/NR blends with high GTR content, could be used in the sole shoe fabrication, taking care that the thickness is ≤ 4.5 mm, and that the GTR/NR blends have not been subjected to more than two re-vulcanization processes.

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Beatriz Padilla-Rizo

Studying type wet blue tannery process for estimating environmental performance using the Life Cycle Analysis methodology: A Case Study in Mexico

Reciclado de subproductos de origen animal: Composición y valor nutritivo del pelo bovino hidrolizado hidrotérmicamente

Mechanical and performance properties of re-vulcanized blends of GTR/NR

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