Reusable membranes are changing the composites industry as one of the most viable alternatives to the higher cost closed mould processes of RTM and LRTM and unsound, single-use consumable vacuum bagging infusion. The floodgates of change are opening and those who feel it is just a fad may think so at their own commercial peril.   

Trading in this sector of vacuum reusable membranes for over 7 years and yet previously known as specialists in closed mould RTM and LRTM for over two and a half decades we feel absolutely correct and true in bringing the good news that reusables have a significant role to play as an alternative moulding process. The main issue here is that the moulding company who employs closed mould RTM and LRTM and maybe also traditional infusion processes could be loosing out to this radical shift in closed mould process change.   

Tillet racing seats reported that for them, reusable membranes had a marked advantage over their traditional in-house LRTM process. Before they had individual back face moulds for each of the different fibre seat layup schedules they needed whereas with one reusable membrane was sufficient. It eliminated the need for multiple B face LRTM moulds as the one reusable membrane could accommodate a range of different fibre ply layouts and thicknesses.   They also reported that the process achieved remarkable resin saving whilst 6 identical CNC trimmed parts of 700 g were within a remarkable 10g variation of one another           

Clients worldwide are delighted with the result of taking on the reusable membrane technology.

A very progressive client of Poly-Matrix Llc, our Hungarian dealer persevered to mould very large tanks of nearly 50m2 with 130 kg resin in 20 minutes per shot. The client carefully thought through and designed membrane handling and lifting systems so that once all the fibre had been laid down two men could lower and vacuum seal the reusable membrane in less than 15 minutes before proceeding with the resin connections and infusion process. Interestingly this moulder applied the built-in resin feed system using our Morphing™ resin runners with a distribution length, including branches, totalling 35m. These eliminate the need for peel ply and time-consuming, wasteful and difficult to remove consumable one-time use spiral wrap resin feed.

The result of using Morph feeds is that there exists no hardened resin feed witness after cure on the back side of the part as the channel in the membrane is signalled to flatten against the laminate once the liquid resin has filled the fibre cavity.

So what are the main advantages reusables bring? First how long do they last.? Reusable vacuum membranes can last over 1200 uses as reported by Pipeco Sdn Bhd. in Malaysia. Within their lifetime ZERO maintenance is required or need for application of any release agent or surface rework. This alone, in comparison to rigid or semi rigid RTM /LRTM matched tooling means that within their lifetime the elimination of maintenance costs would easily amount to the entire cost of reusable membrane tooling.. ( Circa average £160/m2 (US$ 21/ft 2)and average build time of 2 man hours per m2 (10ft2)).

Reusable membranes can be laid down upon the dry fibre pack in sequential stages meaning there is less chance of disturbing the dry fibre preform and nudging it out of place. This concern is feature is especially important for dry fibre on vertical mould walls.   

Reusable membranes can accurately handle different fibre pack loading and core variations without concern as would be the case of semi-rigid RTM type tooling which often will not work due to changes in predicted flow should the user change the layup schedule or worse have inaccurate pre-machined core materials for a sandwich layup.

We could go on but what is apparent is that such advantageous claims are totally true and substantiated by many moulder’s experiences.     

NISSAN SERENA FRONT END produced in complex 8 part mould by VPI

CTIM – Leading Malaysian Auto body parts manufacturer chose Vacuum Press Infusion for the new front end Serena MPV model from Nissan and tuned by Hoshino Impul Co., Ltd ,

Raymond Siew, CTIM’s managing director, said “the success of production moulding such a complex part in the closed mould VPI process using reusable vacuum membranes has now led us to further development and production application many of our other auto aerodynamic parts. We achieve more consistency over our former hand lay operation with greater production speed and almost net size, low wastage moulding.” CTIM were trained in VPI by our Malaysian technical SIFT center led by TK Lim in Cheras, Kuala Lumpur.

CTIM’s attention to detail and technical excellence in achieving series production, which in our opinion has led to one of the most complex closed liquid moulding composite parts we have ever witnessed.

Henry Nicolson-cole, Project manager at Norco Composites says that for prepreg, the ‘debulking process’ whereby one has to pull an ambient vacuum to consolidate plies before moving to the next stage radically makes an advantageous case for Silicone reusable membranes, from both quality and cost perspectives.   

Some prepreg parts may need large numbers of debulks (roughly one debulk every 3-4 layers), particularly for out of autoclave work where the luxury of 6 bar autoclave pressure to consolidate is not available. It is then reusables are all the more important.    Suddenly the payback on a Silicone membrane, even before the saving of man hours becomes evident after around 6 parts. The more complex the shape often the more viable a reusable vacuum membrane process becomes. The membrane can also be used as a final curing aid, and helps to locally intensify any corners or other details where "bagging" bridging may otherwise occur using conventional disposable bagging. The ACC Silicone VBS26-35 used has a heat service maximum of 240C

  

Sean Conneely, Manager of Tooling for Formashape / White Water Composites in Kelowna, BC, Canada explained they have been using the reusable membranes systems since 2013. Starting out small and using them on a production line of 12 moulds with 2 membranes each, they generated 200 complex parts per week using the system, with a total of 9600 over the course of the customer's program without duplicating any of the tooling.   

Currently, the company uses reusables on everything from small complex waterslide shapes, to large raft boats and log flume rides . " its simplicity to produce consistency part to part with an average skill set employee and the savings it can provide, are too good to pass up on". Formashape will more than likely consume over a ton's worth of silicone building membrane's in 2018 alone, a huge step forward from 120 litres it consumed in 2013.       

Wrightbus in Northern Ireland has traditionally incorporated either hand lay-up or LRTM in the manufacture of composite parts for the exterior  and interior of their products. The company's preference would be to manufacture all parts in a closed moulding process due to the advantages it brings, however, due to tooling costs this is only possible on a limited number of parts where the quantities versus expected lifetime create a suitable business case.