Controlling and Predicting the Pilling Propensity of Fabrics. Pilling adversely affects the appearance of fabrics and garments. It is one of the most serious quality problems for the textile industry, particularly the wool industry. This project will examine and control the key factors that contribute to fabric pilling in the fibre-to-fabric conversion processes. It also aims to predict fabric pilling performance from these factors. This will help the industry, along the fibre to fabric chain, t ....Controlling and Predicting the Pilling Propensity of Fabrics. Pilling adversely affects the appearance of fabrics and garments. It is one of the most serious quality problems for the textile industry, particularly the wool industry. This project will examine and control the key factors that contribute to fabric pilling in the fibre-to-fabric conversion processes. It also aims to predict fabric pilling performance from these factors. This will help the industry, along the fibre to fabric chain, to understand the mechanism of pilling and to work together to manage and control this long-standing problem for the benefit of the textile industry as well as textile consumers.Read moreRead less
Application and Evaluation of New Phase Change Materials in Textiles for Minimization of Heat Stress in Elite Athletes. Elite athletes experience heat stress during endurance events as they reach natural barriers of heat dissipation and thermal regulation. These stresses limit performance and present severe psychological challenges. Research showing that cooling body temperatures prior to competition can increase performance led the Australian Institute of Sport to develop ice jackets during the ....Application and Evaluation of New Phase Change Materials in Textiles for Minimization of Heat Stress in Elite Athletes. Elite athletes experience heat stress during endurance events as they reach natural barriers of heat dissipation and thermal regulation. These stresses limit performance and present severe psychological challenges. Research showing that cooling body temperatures prior to competition can increase performance led the Australian Institute of Sport to develop ice jackets during the 1990s. Our project will develop a new generation of athlete garments embedded with phase change materials that provide efficient cooling during competition, without the disadvantages of ice chilling. These novel materials may provide a competitive edge under the extreme conditions expected at the Athens Olympics and beyond.Read moreRead less
Multilayered Safety Clothing for Personal Protective Equipment. This project aims to improve multilayered firefighting protective garments and their thermal comfort by utilizing aerogel microparticles containing thermal regulation materials and flame-retardant agents. This research will create new multifunctional fabric designs and engineering techniques to integrate improved heat and flame protection, comfort and smart features into optimized multilayered garments. It will create novel clothing ....Multilayered Safety Clothing for Personal Protective Equipment. This project aims to improve multilayered firefighting protective garments and their thermal comfort by utilizing aerogel microparticles containing thermal regulation materials and flame-retardant agents. This research will create new multifunctional fabric designs and engineering techniques to integrate improved heat and flame protection, comfort and smart features into optimized multilayered garments. It will create novel clothing systems that will better protect wearers and allow them to effectively combat bushfires and save lives and assets. The successful completion will enable industrial capability in next generation advanced protective garments and functional uniforms for broad occupational health safety and well-being applications.Read moreRead less
Fibrous fabrics with differential transplanar transport properties for moisture and water. The project develops a framework for the development of fibrous fabrics with desired differential transplanar transport properties for moisture and water, integrating various transport mechanisms with hierarchical microstructures of the fabrics. The results will lead to the development of new fabrics for the local and overseas apparel industry.