Heimtextil
Texworld Paris

Free membership

Receive our weekly Newsletter
and set tailored daily news alerts.

Technology/Machinery

Karl Mayer to exhibit solutions for technical applications at Techtextil 2017

Karl Mayer Technische Textilien offers RS MSUS-G weft-insertion warp knitting machine for producing textiles used for reinforcing concrete.

20th March 2017

Innovation in Textiles
 |  Obertshausen

Clothing/​Footwear, Sports/​Outdoor, Construction

Karl Mayer, a leading warp knitting machinery manufacturer, will focus on textile-reinforced concrete and functional clothing for the sports and athleisure sectors at the upcoming Techtextil exhibition, which will be held from 9-12 May in Frankfurt.

With its impressive stand design and carefully selected exhibits, Karl Mayer is looking forward to a successful show. “Alongside JEC World, Techtextil is the most important trade fair for us,” explained Jochen Schmidt. “We meet many of our customers there, who are frequently exhibitors themselves, and we are also expecting to have some interesting conversations with people who are visiting us the first time.”

Strong solutions

Textile reinforcing materials offer better ecological and economic alternatives to steel reinforcements when building with concrete. Since textiles do not rust, only a thin covering material is required, the company reports. This saves on resources, reduces environmental pollution and also enables thin-walled, filigree designs to be produced, according to the manufacturer.

Karl Mayer Technische Textilien offers the RS MSUS-G weft-insertion warp knitting machine for producing the textiles that are used as an innovative way of reinforcing concrete. This high-speed raschel machine with weft insertion in line with the stitch courses can produce heavy carbon-fibre grids, which are used by members of TUDALIT e.V.

Textile-reinforced concrete with a reinforcement made from a warp-knitted grid construction. © Karl Mayer

This association is responsible for the TUDALIT trademark-protected brand for maintaining quality standards in the production and use of textile-reinforced concrete. Allgemeine bauaufsichtliche Zulassung (General Building Regulations Approval) has already been applied for to cover certain concrete components containing weft-inserted, warp-knitted textiles.

Composite materials

The textiles produced on the machines manufactured by Karl Mayer Technische Textilien can be used to reinforce the composite materials used in concrete construction, as well as plastic composites. Here, ready-consolidated, fibre-thermoplastic, semi-finished products, so-called organic sheets, have become more important in recent years, the company reports.

The UD 500 fibre spreading machine. © Karl Mayer

According to Jochen Schmidt, the Managing Director of Karl Mayer Technische Textilien, the concept of fibre spreading is also starting to be a hot topic. Before they are joined to the plastic matrix, the fibre tapes are spread using Karl Mayer’s UD 500 and UD 700 fibre spreading machines.

Performance and comfort

Stylish, functional stretch and non-stretch textiles are a speciality of Karl Mayer’s warp knitting machines. The company’s high-speed tricot machines, jacquard raschel machines and double-bar raschel machines can produce a variety of structured and openwork designs from a single source, and also work functional zones that can be integrated into a garment, such as a jersey.

Functional sample produced on a jacquard raschel machine. © Karl Mayer

Zones are created, which provide a defined compression, breathability, warmth retention and freedom of movement. This is based on body mapping principles and the zones are located in exactly the right places. Karl Mayer’s double-bar raschel machines are also setting functional trends when producing seamless items that are making quite a fashion statement, the manufacturer explains.

www.karlmayer.com

Latest Reports

Business intelligence for the fibre, textiles and apparel industries: technologies, innovations, markets, investments, trade policy, sourcing, strategy...

Find out more