Development of Sustainable, Mechanically Strong, and Self-Healing Bio-Thermoplastic Elastomers Reinforced with Alginates

Development of Sustainable, Mechanically Strong, and Self-Healing Bio-Thermoplastic Elastomers Reinforced with Alginates

New bio-thermoplastic elastomer composites with self-healing capacities based on epoxidized natural rubber and polycaprolactone blends reinforced with alginates were developed. This group of salts act as natural reinforcing fillers, increasing the tensile strength of the unfilled rubber from 5.6 MPa...

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Veröffentlicht in:Polymers 2022-10, Vol.14 (21), p.4607
Hauptverfasser: Utrera-Barrios, Saul, Ricciardi, Ornella, González, Sergio, Verdejo, Raquel, López-Manchado, Miguel Ángel, Hernández Santana, Marianella
Format: Artikel
Sprache:eng
Schlagworte:
Acids
Alginates
Elongation
Hydrogen
Hydrogen bonds
Ionic interactions
Mechanical properties
Molecular weight
Natural rubber
Polycaprolactone
Polymer blends
Polymers
Rubber
Scanning electron microscopy
Self healing materials
Sustainable development
Temperature
Tensile strength
Thermoplastic elastomers
Thermoplastics
Zinc oxides
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Beschreibung
Zusammenfassung:New bio-thermoplastic elastomer composites with self-healing capacities based on epoxidized natural rubber and polycaprolactone blends reinforced with alginates were developed. This group of salts act as natural reinforcing fillers, increasing the tensile strength of the unfilled rubber from 5.6 MPa to 11.5 MPa without affecting the elongation at break (~1000% strain). In addition, the presence of ionic interactions and hydrogen bonds between the components provides the material with a thermally assisted self-healing capacity, as it is able to restore its catastrophic damages and recover diverse mechanical properties up to ~100%. With the results of this research, an important and definitive step is planned toward the circularity of elastomeric materials.
ISSN:2073-4360
2073-4360
DOI:10.3390/polym14214607