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
An innovative system for accurate bending of fracture fixation plates in orthopaedic surgery. Bone fractures cost the Australian healthcare system about 1 billion annually, with the costs associated with non optimal surgical outcomes due to post-operative complications being much higher. The novel system developed in this project will not only shorten surgical procedures but also result in anatomically better fitting plates which will improve the functional outcome and reduce the need for surgic ....An innovative system for accurate bending of fracture fixation plates in orthopaedic surgery. Bone fractures cost the Australian healthcare system about 1 billion annually, with the costs associated with non optimal surgical outcomes due to post-operative complications being much higher. The novel system developed in this project will not only shorten surgical procedures but also result in anatomically better fitting plates which will improve the functional outcome and reduce the need for surgical implant removal. It will further lessen degenerative changes in adjacent joints as a result of incorrect fracture alignment. It can be expected that these improvements in surgical techniques will translate into reduced healthcare expenditure and ensure patient's quality of life.Read moreRead less
Application of Knowledge-Based Engineering (KBE) Technology to Intelligent Design Engineering Systems. Knowledge Based Engineering (KBE) is a systematic approach to the integration of design and manufacturing of products and their related processes, from concept to disposal. Typical for KBE applications is that it accepts design rules and procedures. This makes the design process more efficient, which reduces development cost and product lead time. It also enables knowledge and experience to be ....Application of Knowledge-Based Engineering (KBE) Technology to Intelligent Design Engineering Systems. Knowledge Based Engineering (KBE) is a systematic approach to the integration of design and manufacturing of products and their related processes, from concept to disposal. Typical for KBE applications is that it accepts design rules and procedures. This makes the design process more efficient, which reduces development cost and product lead time. It also enables knowledge and experience to be captured and retained which reduces training cost and makes new staff more effective. The aim of the project is to develop a KBE environment for wire and conduit routing through complex structures and verify the benefits in an industry environment.Read moreRead less
Process models and control strategies for abrasive waterjet precision cutting of amorphous magnetic metal parts for energy efficient electrical machines. Amorphous magnetic metal (AMM) is the most energy-efficient material for electrical machines and can save more than 36% of the energy wasted by an electrical motor using an ordinary core material. Since electrical motors consume about 70% of all the electricity generated, energy saving of approximately $900 million annually in electricity bills ....Process models and control strategies for abrasive waterjet precision cutting of amorphous magnetic metal parts for energy efficient electrical machines. Amorphous magnetic metal (AMM) is the most energy-efficient material for electrical machines and can save more than 36% of the energy wasted by an electrical motor using an ordinary core material. Since electrical motors consume about 70% of all the electricity generated, energy saving of approximately $900 million annually in electricity bills, and an annual reduction of 2.5 million tonnes of greenhouse gas emissions in Australia are expected. This project will develop a unique technology able to cut AMM to the required quality and productivity. It targets the national research priorities in Frontier Technologies and An Environmentally Sustainable Australia. Read moreRead less
Predictive modelling of the incremental sheet forming process. This project will benefit Australia with the gain of fundamental understanding of an advanced manufacturing process leading to a step change from an 'art of expertise' to a scientific understanding and improvement. The innovative design software kernel developed will facilitate a step change in manufacture of complex sheet formed product, such as aircraft and vehicle panelling. This seed collaborative research with QMI Solutions and ....Predictive modelling of the incremental sheet forming process. This project will benefit Australia with the gain of fundamental understanding of an advanced manufacturing process leading to a step change from an 'art of expertise' to a scientific understanding and improvement. The innovative design software kernel developed will facilitate a step change in manufacture of complex sheet formed product, such as aircraft and vehicle panelling. This seed collaborative research with QMI Solutions and global partner, Boeing, will enhance national modelling capability in advanced metal forming, a niche market for Australian manufacturing. The new technology and research support capabilities for its adoption, will lead to new national business and export opportunities.Read moreRead less
An intelligent design support system for manufacturing of palletising machinery. The food and beverage manufacturing process in most Australian enterprises is a highly automated process, where food cartons, bottles or cans are required to move at a controlled speed for filling or assembly operations. These operations require highly efficient and reliable material handling machinery such as palletising systems. The outcome of this research will be of direct economic benefit to Australian manuf ....An intelligent design support system for manufacturing of palletising machinery. The food and beverage manufacturing process in most Australian enterprises is a highly automated process, where food cartons, bottles or cans are required to move at a controlled speed for filling or assembly operations. These operations require highly efficient and reliable material handling machinery such as palletising systems. The outcome of this research will be of direct economic benefit to Australian manufacturers and suppliers of such machinery in reducing the cost and lead time of designing and delivering highly automated flexible palletising and de-palletising systems with maximum performance.Read moreRead less