29 April 2022

JEC World at the Paris-Nord Villepinte exhibition center is the European trade fair highlight of the composites industry. Once again, the German TARTLER GROUP will use this platform to present its innovative dosing, mixing and application systems for synthetic resin processing. In doing so, the TARTLER solutions can easily handle both liquid and highly viscous media. Among other things, the company will present an efficient system for the new direct infusion process as well as the successful degassing stations for resource-saving material use. These include the T-EVAC evacuation system in its stand-alone and dosing system-integrated variants, and the TAVA 200 F vacuum filling system. They all work with vacuum technology and serve the purpose of freeing pasty and low-viscosity media from interfering air and moisture.

“In particular, all those resin users and composites processors who are dissatisfied with the previous methods of vacuum infusion due to safety-critical material accumulations, poor material degassing and high installation costs are cordially invited to visit us at JEC 2022 in Paris. We will be presenting the new TARTLER direct infusion to an international audience for the first time here, as well as the T-EVAC for efficient degassing. We also showcase the proven TAVA series”, says Managing Director Udo Tartler with an outlook to the forthcoming market launch.

As things stand, the new direct infusion is an innovative alternative to the previously used – and often suboptimal – variants of vacuum infusion. Both initial customer projects and benchmarks at the company’s own research and development center (R.D.D.) have shown that TARTLER’s direct infusion technology can offer numerous process and safety benefits. These include, for example, that thanks to precise real-time control of the infused resin quantities, the proportional material weights and the mixing ratios, the highest demands on the end product are met.

Another advantage is that the system allows the use of faster curing agents without the risks of unwelcome resin accumulations with a tendency to exothermic reaction. In addition, its precise temperature control enables very short infusion times – which in composite technology ensures rapid impregnation of the fiber fabrics and thus reduces process times.

The new TARTLER solution is therefore a pressure-controlled direct infusion system in which all pressure fluctuations caused by operation and the environment are automatically compensated. This applies to all system-typical influences – even those resulting from the different pressure resistances of different hose lengths or the height differences of a mold. This results in rapid, reliable and uniform resin delivery to the mold inlet and ensures that the full vacuum value is always present in the mold. As a result, TARTLER direct infusion offers the user many new approaches to process optimization. For example, by using faster hardeners, the curing time can be reduced and, thanks to the intelligent control of the pressure compensation, it can dose at a significantly higher flow rate – with the same infusion set-up.

With TARTLER-style direct infusion, the user consequently receives a whole bundle of advantages. The process is safe and efficient, proves to be material-saving and cost-cutting – and optimizes vacuum infusion from the ground up. The next higher level of optimization in terms of low-waste material use and improved infusion and resin quality is made possible by using a T-EVAC series vacuum degassing station. These stations are installed upstream of the direct infusion: As an offline central station to supply several metering and mixing systems (manufacturer-independent) or as an inline system integrated directly into a NODOPUR from TARTLER. Before the actual processing, they free the epoxy or PU resins from air and moisture in a hermetically sealed vacuum process and bring them to the desired application temperature.
The offline T-EVAC is available in two variants: For direct connection to dosing systems or with an additional buffer tank, which considerably reduces refilling times. 

The vacuum-based TAVA 200 F degassing station from the TARTLER GROUP, which is also presented at the JEC, is in turn regarded as a forward-looking solution for the sustainable and resource-saving use of self-fluent and paste-like media. Especially in plants where larger quantities of high- and low-viscosity fluids are processed, the evacuation system enables the realization of waste-free and safe filling and transfer processes. With the TAVA 200 F degassing station, all material residues can be filled into lidded drums without “disturbing air” and then safely reintroduced into the processing cycle with low losses. The savings in material purchasing achieved in this way can reach considerable dimensions. For example, one of the leading manufacturers of wind turbines was recently able to reduce its consumption of synthetic resin by around 28 metric tons of synthetic resin paste per year by using the TAVA 200 F.

The TAVA 200 F is configured and delivered by SOMATA, a subsidiary of the TARTLER GROUP, to meet customer requirements. The degassing station is available as standard for the air-free filling and transfer of 200- and 50-liter drums, but can also be adapted to other container sizes upon customer request. It consists of a device for clamping and stabilizing the drum, a special combination attachment for synchronized vacuum generation and filling, a vacuum pump, and a control system with touchscreen. All components are installed on a base with a barrel centering plate and are accessible from all sides.

For further information please click here.


Condividi questo articolo
Share on FacebookTweet about this on TwitterShare on LinkedInEmail this to someone

Leave a Reply

Your email address will not be published. Required fields are marked *

I cookie ci aiutano a fornire i nostri servizi. Utilizzando tali servizi, accetti l'utilizzo dei cookie da parte di TecnoPlast maggiori informazioni

TecnoPlast utilizza i cookie per fonire la migliore esperienza di navigazione possibile. Continuando a utilizzare questo sito senza modificare le impostazioni dei cookie o premendo su "Accetta" permetti il loro utilizzo.