Resin Transfer Moulding (RTM), at present, is a semi-automated, low volume
production process for fibre reinforced plastics with much work being
undertaken to achieve full automation and medium volume production. The
efficient and consistent impregnation of thermosetting resin into a
reinforcement pack are key requirements in the development of RTM.
For mass production and automation accurate predictions of mould fill times
are critical in order to plan production. At present, the fill times are predicted
by assuming Darcy's law and using experimentally determined permeability
value. Permeability measurements display a large amount of scatter which
affects the accuracy of simulations of mould filling.
Commercial fabrics such as 'Injectex' are now available which achieve high
permeability to resin flow through a modified microstructural architecture of
fibre tows.
This thesis seeks to examine the relationship between microstructure and
permeability in these fabrics in the context of possible decreases in mechanical
properties which may result from non-uniform fibre distribution. An image
analysis technique is used to characterise and quantify the regions of flow
within the fabric architecture which are then correlated with a series of
permeability measurements determined experimentally. This then leads onto a
mathematical model for the prediction of the permeability of the fibre pack.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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The Flow of Liquid Polymers Through Fibrous Reinforcements
Griffin, P. R. (Author). 1995
Student thesis: PhD