Abstract:
The simulation of composite manufacturing processes is a great aid to obtaining efficient production and high quality parts. The mould and process design must allow for fast filling times as well as dry-spot free parts. Besides an accurate simulation of the resin flow through the reinforcement, the compaction response of the preform is also needed. The stress response of the textile to compaction has an influence on the local and global forces exerted on tooling. The numerical prediction of the clamping force helps to trade off fast production times against affordable machinery. This article describes the accurate simulation of force controlled Resin Transfer Moulding (RTM) and Compression RTM, and compares results of simulations with experimental data. A parametric study is performed in order to minimise the simulation time without compromising the accuracy of the results. The controlled force algorithms have been implemented within SimLCM, a code under development at the University of Auckland to address the liquid composite moulding (LCM) family of manufacturing processes. With these new tools the tradeoff between production process time and equipment cost can be considered, and optimal process design solutions found.