2011
DOI: 10.1002/mame.201000374
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Mechanical Properties and Water Absorption of Thermoplastic Bloodmeal

Abstract: Bloodmeal mixtures containing SS, water, SDS and urea were extruded and injection‐molded. Increased chain mobility with sufficient plasticization during processing increased the amount of available amino acids for strong water/protein interactions. Materials containing low water and increased SS had reduced tensile strength and elongation, compared to higher water at the same SS content. Materials containing three parts SS per hundred parts bloodmeal (pphbm), 60 pphbm water and 20 pphbm urea, were the only duc… Show more

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Cited by 24 publications
(22 citation statements)
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“…The high protein concentration in blood meal helps to avoid the necessity of a costly protein concentrating and isolating efforts, and allowing its direct modification into thermoplastics. Blood meal thermoplastic processing has been extensively studied by researchers at Waikato University in New Zealand and commercialization of this technology is underway (Bier et al, 2012;Verbeek & van den Berg, 2011a;Verbeek & van den Berg, 2011b). Proteinbased films and coatings in general are known to be stiff and brittle due to the extensive intermolecular interactions between protein chains through hydrogen bonding, electrostatic forces, hydrophobic bonding and disulfide cross-linking similar to other plant proteins (Sothornvit & Krochta,0000).…”
Section: Rendered Meal Ruminants Non-ruminants Pets Fertilizermentioning
confidence: 99%
“…The high protein concentration in blood meal helps to avoid the necessity of a costly protein concentrating and isolating efforts, and allowing its direct modification into thermoplastics. Blood meal thermoplastic processing has been extensively studied by researchers at Waikato University in New Zealand and commercialization of this technology is underway (Bier et al, 2012;Verbeek & van den Berg, 2011a;Verbeek & van den Berg, 2011b). Proteinbased films and coatings in general are known to be stiff and brittle due to the extensive intermolecular interactions between protein chains through hydrogen bonding, electrostatic forces, hydrophobic bonding and disulfide cross-linking similar to other plant proteins (Sothornvit & Krochta,0000).…”
Section: Rendered Meal Ruminants Non-ruminants Pets Fertilizermentioning
confidence: 99%
“…Therefore, while a comparison with other bio-based polymers provides a valuable benchmark, it is also important to consider the petroleumbased polymers NTP could replace. The material properties of NTP are similar to LDPE, and these are therefore functionally equivalent in some applications (Verbeek and van den Berg 2011).…”
Section: Comparison With Producing Petroleum-based Polymersmentioning
confidence: 99%
“…Laboratory-produced NTP has comparable mechanical properties to linear low-density polyethylene (LDPE) and, hence, can be considered functionally equivalent to PE in many applications (Verbeek and van den Berg 2011).…”
Section: Functionmentioning
confidence: 99%
“…Laboratory-produced NTP has comparable mechanical properties to linear low density polyethylene (LLDPE) and hence can be considered functionally equivalent to LLDPE in several applications (Verbeek and van den Berg 2011).…”
Section: Functionmentioning
confidence: 99%