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Textiles for
panel walls
Textiles for
roofing
Textiles for
plaster facades
Textiles for
structural components

Textiles for plaster facades


Structural advantages. Economical advantages.

warp knitted textile fabrics
for plaster facades


structural advantages:

  • Higher tensile strength due to the stretched threads (non-crimp)
  • Maximum performance of the end products, thanks to
    • gentle handling of the fibres
    • defined laying and fixing

economical advantages:

  • Highly productive processing of high-performance fibres like polyester and glass, thanks to
    • Working width up to 6,2 m
    • Maximum output up to 2.000 m²/h
  • Competitive production costs

WEFTTRONIC® II G*

Sample No.: e.g. 11088


  • Working width: 245”
  • Gauge: E18
  • Materials: e.g. polyester, fibre glass, carbon, basalt
* New machine generation available from 1st Quarter 2019

textiles for structural components


Structural advantages. Economical advantages.

textiles for
structural components


structural advantages:

  • Higher tensile strength due to the stretched threads
  • Maximum performance of the end products for optimum use of the fibre properties, thanks to
    • gentle handling of the high-performance fibres
    • defined laying and fixing

economical advantages:

  • Highly productive processing of high-performance fibres like glass and carbon, thanks to
    • Working width up to 4,4 m
    • Maximum output up to 850 m²/h

RS MSUS-G

Sample No.: e.g. 11062


  • Working width: 138”, 176”, 213“, 245”
  • Gauge: E3, E4.5, E6, E9, E12, E14
  • Materials: e.g. polyester, fibre glass, carbon, basalt

textiles for roofing


Structural advantages. Economical advantages.

textiles for
roofing


structural advantages:

  • Higher tensile strength due to the stretched threads
  • Maximum performance of the end products, thanks to
    • gentle handling of the high-performance fibres
    • defined laying and fixing

economical advantages:

  • Highly productive processing of high-performance fibres like polyester and glass, thanks to
    • Working width up to 6,8 m
    • Maximum output up to 850 m²/h

WEFTTRONIC® II RS

Sample No.: e.g. 10433


  • Working width: 138“, 186“, 213“, 268“
  • Gauge: E9, E10, E12, E14, E16, E18, E22, E24
  • Materials: e.g. polyester, polypropylen, fibre glass

textile-reinforced concrete


Structural advantages. Economical advantages.

fibre-reinforced plastics


Structural advantages. Economical advantages.

textile-reinforced
concrete


structural advantages:

  • Higher tensile strength due to the stretched threads (non-crimp)
  • Maximum performance of the end products, thanks to
    • gentle handling of the high-performance fibres
    • defined laying and fixing

economical advantages:

  • Highly productive processing of high-performance fibres like glass and carbon, thanks to
    • Working width up to 4,4 m
    • Maximum output up to 850 m²/h

RS MSUS-G

Sample No.: e.g. 11062


  • Working width: 138”, 176”, 213“, 245”
  • Gauge: E3, E4.5, E6, E9, E12, E14
  • Materials: e.g. polyester, fibre glass, carbon, basalt

fibre-reinforced
plastics


structural advantages:

  • reinforcing fibres in each part of fabric because of the non-course-oriented weft insertion (stitching-through principle)
  • High flexibility of the layered structure thanks to
    • simultaneous processing of different fibre materials
    • different laying angles in multiple plies

economical advantages:

  • Highly productive processing of high-performance fibres thanks to
    • Working width up to 130” and a maximum output up to 800 m²/h
    • Combining several processing stages by handling different types of materials (yarns, substrates, etc.)

COP MAX 4

Sample No.: e.g. 50062


  • Working width: 50“, 101“, 130“
  • Gauge: E5, E6, E7, E10, E12, E14
  • Materials: e.g. fibre glass, carbon, basalt
  • Laying angles: programmable between +20° and –20°