Novel network polymers with photoinduced plasticity. The production of crosslinked polymers (thermosets and rubbers) is a multi-billion dollar industry and these polymers are irreplaceable in their use in numerous applications in the household goods, medical, electronics, automotive and construction industries. However, they shrink during solidification causing internal stresses which weaken them and they can not be reshaped, repaired or recycled. This study will develop a novel range of cros ....Novel network polymers with photoinduced plasticity. The production of crosslinked polymers (thermosets and rubbers) is a multi-billion dollar industry and these polymers are irreplaceable in their use in numerous applications in the household goods, medical, electronics, automotive and construction industries. However, they shrink during solidification causing internal stresses which weaken them and they can not be reshaped, repaired or recycled. This study will develop a novel range of crosslinkable polymers which can change shape on irradiation by light (or by heating) for use in applications ranging from repairable composites, stress-free lens, non-shrinking dental filling materials and light-sensitive actuators which will have significant benefit to industry.Read moreRead less
High efficiency photoinitiators for novel photopolymerization processes. The radiation curing industry is worth several billion dollars world-wide with an Australian market of ca. $100 million and an even greater market in the Asian region. One of the main factors controlling the expansion of this industry is the development of new photoinitiator systems with improved performance. This project aims to combine the skills of three leading scientists in the photocuring field to develop more efficie ....High efficiency photoinitiators for novel photopolymerization processes. The radiation curing industry is worth several billion dollars world-wide with an Australian market of ca. $100 million and an even greater market in the Asian region. One of the main factors controlling the expansion of this industry is the development of new photoinitiator systems with improved performance. This project aims to combine the skills of three leading scientists in the photocuring field to develop more efficient, environmentally-friendly systems by controlling the initiation and polymerization mechanisms in (meth)acrylate, cyclic ether, cyanate and vinyl ethers. This should benefit local manufacturers exporting into the printing, adhesive, dental, lithography, composite industries and to the photopolymer industry generally.Read moreRead less