A smart functional lubricant for hot strip rolling. This project aims to develop a new generation smart lubricant system through an innovative polymer micro-encapsulation strategy that allows in-situ creation of hierarchical coating before rolling and during hot rolling contacts. This coating is expected to deliver the integrated lubrication and functions to suppress secondary and tertiary scale growth while providing effective lubrication during the hot rolling. This project will make a signifi ....A smart functional lubricant for hot strip rolling. This project aims to develop a new generation smart lubricant system through an innovative polymer micro-encapsulation strategy that allows in-situ creation of hierarchical coating before rolling and during hot rolling contacts. This coating is expected to deliver the integrated lubrication and functions to suppress secondary and tertiary scale growth while providing effective lubrication during the hot rolling. This project will make a significant contribution to improved product yield, prolonged service life of work rolls, better strip surface quality, and overall improved process efficiency.Read moreRead less
Surf sounds: predicting the valuable data of bubble sound emissions. This project aims to predict natural bubble sounds. These audio signals contain data on the bubble size, which controls oxygen absorption, and thus product quality, in minerals, food, pharmaceuticals and water industries. Bubbles also control ocean carbon-dioxide absorption. Such gas absorption is almost impossible to monitor with laboratory sensors. In the ocean, sensors are quickly blocked by algae. In industry, liquids are o ....Surf sounds: predicting the valuable data of bubble sound emissions. This project aims to predict natural bubble sounds. These audio signals contain data on the bubble size, which controls oxygen absorption, and thus product quality, in minerals, food, pharmaceuticals and water industries. Bubbles also control ocean carbon-dioxide absorption. Such gas absorption is almost impossible to monitor with laboratory sensors. In the ocean, sensors are quickly blocked by algae. In industry, liquids are opaque or too hot. However, the easily-measured sounds get through. Experiments and computer simulations would allow the sound volume as well as frequencies emitted by bubbles to be predicted. This would enable valuable data to be interpreted from complex sounds, transforming industrial and environmental measurements.Read moreRead less