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The Synthesis and Evaluation of White Nano Particles that Reinforce the Mechanical Properties of Elastomers. This project will introduce admicellar polymerization technique to produce a bound polymer layer on the surface of fillers used for reinforcement of elastomers. The novel approach in this project will provide advanced material with excellent mechanical properties. Such composites can be used in various high performance elastomer applications such as rubber for tyres in automotive vehicles ....The Synthesis and Evaluation of White Nano Particles that Reinforce the Mechanical Properties of Elastomers. This project will introduce admicellar polymerization technique to produce a bound polymer layer on the surface of fillers used for reinforcement of elastomers. The novel approach in this project will provide advanced material with excellent mechanical properties. Such composites can be used in various high performance elastomer applications such as rubber for tyres in automotive vehicles. Products based on this new technology will produce significantly improved properties. The development of this new technology will not only advance polymer science, it will also provide great opportunities for new elastomer applications in a number of industries.Read moreRead less
Novel Biomimetic Nanosprings:Protein-based Elastomer for Engineering Applications. The ability to produce biomimetic elastomeric components with approximately infinite fatigue life offers significant impact on energy consumption and materials usage. In this project, we seek this goal by bio-macromolecular modification and understanding of the unique proteins from a number of different insects that provide the structural basis of novel bioelastomers with outstanding in-vitro fatigue properties. T ....Novel Biomimetic Nanosprings:Protein-based Elastomer for Engineering Applications. The ability to produce biomimetic elastomeric components with approximately infinite fatigue life offers significant impact on energy consumption and materials usage. In this project, we seek this goal by bio-macromolecular modification and understanding of the unique proteins from a number of different insects that provide the structural basis of novel bioelastomers with outstanding in-vitro fatigue properties. The project will translate the superior in-vivo properties of these proteins to real-world novel bioelastomers for engineering applications. Such functional materials will find potential use in areas such as microelectromechanical devices (MEMS), actuators, artificial muscles, drug delivery vehicles, etc.Read moreRead less