2017
DOI: 10.1016/j.foodhyd.2017.06.022
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Improvement of mechanical and water absorption properties of plant protein based bioplastics

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Cited by 44 publications
(20 citation statements)
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“…In rice and corn starch-based TPS, glycerol is used as plasticizer, due to its better mechanical properties and good water solubility, ranging from 18 to 25%, though it can increase up to 36% [33,41]. It was shown that the glycerol concentration would not affect the glass transition temperatures.…”
Section: Preparation Of Bioplastics Filmmentioning
confidence: 99%
See 1 more Smart Citation
“…In rice and corn starch-based TPS, glycerol is used as plasticizer, due to its better mechanical properties and good water solubility, ranging from 18 to 25%, though it can increase up to 36% [33,41]. It was shown that the glycerol concentration would not affect the glass transition temperatures.…”
Section: Preparation Of Bioplastics Filmmentioning
confidence: 99%
“…They further investigated the phase separation mechanisms and their consequence on the size of starch granules during the drying process and the frictional, thermal, mechanical, thermal, optical, and water-barrier properties. Gómez-Heincke et al [33] manufactured bioplastics from the proteins derived from potato and rice. Glycerol with different concentrations was mixed with the proteins.…”
Section: Introductionmentioning
confidence: 99%
“…It was proven that potato protein bioplastic is not affected by glycerol concentration, thermosetting for moulding, it has complex modulus value close to the one for low density polyethylene and it has resistance to higher temperatures, when compared with wheat and rice bioplastics. This plastic also showed low water absorption values (9 %), compared to wheat protein plastic, due to patatin content [31]- [33].…”
Section: Bioplasticsmentioning
confidence: 91%
“…Potato protein bioplastics are yet to be studied extensively. In the work of Gomez-Heincke, et al [31] rice and potato proteins were studied as a source for bioplastics, making them in a mix with glycerol as plasticizer and wheat proteins as a reference material. It was proven that potato protein bioplastic is not affected by glycerol concentration, thermosetting for moulding, it has complex modulus value close to the one for low density polyethylene and it has resistance to higher temperatures, when compared with wheat and rice bioplastics.…”
Section: Bioplasticsmentioning
confidence: 99%
“…c) for the properties already mentioned and because the protease inhibitors present in the potato have an appetite suppressant effect (Matharu et al , ). In addition, these proteins can also be used for the production of bioplastics by mixing with a plasticiser (Gómez‐Heincke et al , ). On the other hand, the possibilities of obtaining added‐value products increase with the possibility of hydrolyse the proteins into amino acids [lysine, leucine, histidine and valine are those that are found in greater quantity not only in the free form, but also being part of proteins from Group Phureja according to Bártová et al ()].…”
Section: Valorisation Of Potato Wastes: a Biorefinery Approachmentioning
confidence: 99%