New innovation eliminates gas traps in injection mould tools
Published: 9 July 2019 - Rachael Morling
Gas traps are a common problem in injection moulding, leading to scorching, pinholes and poor finished part quality. They are caused by gas pockets forming as the ‘melt fronts’ of the molten plastic, which is injected under pressure into injection mould tool cavities, come together before the gas has escaped naturally through the split lines of the tool; this traps the gas within the plastic.
However, a new innovation from OGM, using the latest hybrid metal additive manufacturing technology, will help to eliminate the problems caused by gas traps in injection mould tools.
The solution uses the company’s latest hybrid metal additive manufacturing technology. This has been adopted to produce a wide range of mould tool inserts, quickly and at competitive cost. Using newly developed techniques, OGM is able to build inserts layer by layer that incorporate large numbers of micro-pores, each just a few microns in diameter, through which gas can escape, without adversely affecting the quality of the finished part.
The inserts are 3D laser sintered in steel or other metals, to match the exact requirements of each injection mould tool. The dimensions and characteristics of the gas escape channels are optimised to reduce cycle times and boost productivity, while maintaining high levels of part quality, even for extremely complex designs.
Marcel Gowers, Additive Manufacturing applications engineering manager at OGM, explains that: “The process we’ve developed exploits the potential of 3D laser sintering, to create precise and carefully controlled vent channels through carefully selected areas of the injection mould tool. OGM’s porous inserts can be manufactured into any 3D shape, both quickly and efficiently, enabling us to reduce lead-times to a minimum; just as importantly, we can help customers eliminate the problems caused by gas traps while maintaining moulded part quality and productivity.”