Technical textiles are extremely diverse in their end-use applications and manufacturers can be called upon to quickly produce a succession of materials with widely differing properties – often within a single shift.
Technical textiles are extremely diverse in their end-use applications and manufacturers can be called upon to quickly produce a succession of #
In seeking to cater to the flexibility in processing technology demanded by such wide-ranging production, Monforts has developed the new Montex Allround, a modular, interchangeable coating system for technical textiles.
These can range from carbon fabrics for today’s high-performance composites, to filter media which must perform in extreme temperatures. Then there are the heavy duty membranes which are employed in the collection and storage of methane in biogas plants, as well as materials equipped with sensors and electrical conductors which are now used as base liners in DSC solar cells.
These very different materials, however, have one thing in common – they all require expert finishing for maximum efficiency.
It will be unveiled at the forthcoming ITMA Asia exhibition taking place in Shanghai, China from June 16-20th.
The patented Montex Allround offers considerable benefits to manufacturers of coated technical textiles – and not least in respect of its flexibility.
The modular coating heads of the system can be quickly and easily changed by a specially-designed undercarriage from the side of the unit, allowing it to be adapted for different applications.
There are modules for knife and slot die coating, in addition to those suitable for flexure, gravure and rotary-screen printing. Special modules for powder scattering and spraying are also available.
The unit can be enclosed with a special casing when the handling of fabrics treated with organic, or even toxic solvents is taking place.
The Montex Allround, which consists of a spreading unit and a pulling device along with the selected coating head, allows for the tension-free coating of the substrate along a greatly-reduced web path and a very short period of ‘open’ coating prior to it entering the dryer; ensuring significantly less chance of contamination.
The shortest possible distance between the coating head and the stenter infeed ensures the highest quality coating results.
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