Modelling for Optimisation and Scale-up of the Multilayer Blown Film Process. Multilayered blown film plastic films play an important role in the food and packaging industry in Australia and SE Asia. This project aims to predict the polymer film properties for a large scale line based on experimental data from the pilot scale studies using limited quantities of polymer. This project will investigate the fundamental rheology of polymer resins and blends used for multilayered films and correlate ....Modelling for Optimisation and Scale-up of the Multilayer Blown Film Process. Multilayered blown film plastic films play an important role in the food and packaging industry in Australia and SE Asia. This project aims to predict the polymer film properties for a large scale line based on experimental data from the pilot scale studies using limited quantities of polymer. This project will investigate the fundamental rheology of polymer resins and blends used for multilayered films and correlate these to the operating parameters in pilot and industrial scales using blown-film models. The interrelationship between the models in two scales will result in reducing trial and error and will optimise production costs.Read moreRead less
An Intelligent Computer Aided Engineering Environment for Design and Production of Blow Moulded PET Bottles. The aim of this research proposal is to develop an intelligent computer aided engineering environment for design and manufacturing of blow moulded PET bottles. Current techniques involve a mixture of trial and error leading to high costs in time and money. The proposed research will adopt a concurrent engineering approach and integrating intelligent knowledge based systems for optimum p ....An Intelligent Computer Aided Engineering Environment for Design and Production of Blow Moulded PET Bottles. The aim of this research proposal is to develop an intelligent computer aided engineering environment for design and manufacturing of blow moulded PET bottles. Current techniques involve a mixture of trial and error leading to high costs in time and money. The proposed research will adopt a concurrent engineering approach and integrating intelligent knowledge based systems for optimum part design of PET bottles, PET preform and moulds based on user specific requirements. The work is expected to provide a highly efficient environment able to design and produce a new PET bottle economically and quickly with maximum functional performance.Read moreRead less