From the machine to the printing table

Fig. 1: The new 3D printing system from KARL MAYER

Highly-productive mass production process for tailor-made products thanks to KARL MAYER’s new 3D printing system

The combination of new technologies such as additive manufacturing with the traditional procedures used in the textile industry offers numerous potentials for product development and hence new market opportunities. The KARL MAYER GROUP has recognized this and has developed a technological solution for combining warp-knitted textile manufacturing with 3D printing. The innovation combines the warp knitting machine with the 3D printing system in a homogenous process according to the roll-to-roll principle. The result is maximum flexibility and efficiency in manufacturing customized products. “3D printing allows us to completely rethink our whole approach to textile product design. The world of sportswear is already showing us what is possible. Mass-produced articles complete with 3D-printed branding and functional elements are already firmly established in this domain,” notes Michael Kieren from KARL MAYER’s New Business Development team. In addition, the carbon footprint of newly developed products is good, since savings are made on material and energy-intensive working steps.

The new 3D inline printer really makes the most of its advantages, particularly when manufacturing prototypes and equipping textile products with reinforced areas as well as design or function elements for additional benefits.

Fig. 2: The camera system of the new 3D printing solution

Flowing process management

With the new 3D printing solution, the textile is printed directly after it has been manufactured on the warp knitting machine. This involves the machine directly communicating with the printer’s pattern system to enable targeted control. The inline printing head can be moved quickly to every necessary manufacturing position. It is mounted on an H-gantry and can be moved in all directions in space at a speed of 5 m/s. A camera system and pattern recognition software ensure the highest precision during the positioning of the printing head on the 2×1 meter printing field.

The current printer version processes polyurethane and silicone without heat. The materials generally used in textile finishing are applied at a printing speed equivalent to a textile production of 85 m²/h with a warp knitting machine working width of 138″.

Fig. 3: Example of 3D printed warp knitted fabric

Particularly advantages for the sports, shoes, and automotive sectors

The new 3D printing system from KARL MAYER combines the high productivity of warp knitting machines with the outstanding flexibility of additive manufacturing, thus offering the opportunity to cut production steps. The complexity of the machine handling is also reduced through a simple pattern system.

Thanks to these advantages, the innovation is particularly suitable for customizing products. Through direct printing onto the fabric, large quantities of textile articles can be decorated with logos, brand designations, or team names. Above all, the far greater flexibility in terms of design opens up completely new opportunities for successfully responding to increasing customer needs for individualization.

In the sports sector, where high demands are placed on product performance, the new 3D printing system is once again ahead of the field. For instance, partial reinforcements such as kinesio tapes or support areas for muscles and for stabilizing movement can easily be integrated into functional sports outfits. Shoes also benefit from the opportunity of being designed to be wear-resistant in areas that are under the most stress. Other opportunities are customized designs right through to 4D-printed shoe cloths – for instance through 3D-printed spacer textiles – and efficient production “on demand”.

The automotive sector, known for its high production efficiency, is likely to be particularly interested in KARL MAYER’s efficient 3D printing system because of the few working steps required, for example, to integrate reinforcements into door panels, roof liners, and seats. Designs, team logos, and company names can be applied easily and accurately for use in automotive interiors. Apart from these conventional uses, future-oriented implementations are also conceivable, such as the integration of switches in textile structures, the use of textiles for control purposes, and protective covers for electronic components.

Putting into practice

KARL MAYER has already tested the new 3D printing table with its development partner, Bielefeld University of Applied Science, for the production of shoe cloths. “Here, even more than in other areas, a very wide variety of applications is required. The 3D printing table is ideal for this”, Michael Kieren concludes.

The prototype is now ready and was presented at the Techtextil 2022 trade fair in Frankfurt am Main. The innovation was also a highlight at the 5th Additive Manufacturing Meeting, which was held in November 2022 on the KARL MAYER company premises. The organizer of the annual meeting of experts is the Textilforschungsinstitut Thüringen-Vogtland e.V. (Thüringen-Vogtland Textile Research Institute) (TITV Greiz). “We are now trying to establish the procedure in practice together with potential users,” says Michael Kieren, explaining the next steps being taken.


Source and Fig.: www.karlmayer.com

Всички права запазени на публикуваните материали на сайта на Онлайн списание за Текстил, облекло, кожи и технологии © All publications on the Online magazine for Textiles, Clothing, Leather and Technology site are copyrighted© Alle Veröffentlichungen im Online-Magazin für Textilien, Bekleidung, Leder und Technologie sind urheberrechtlich geschützt ©