3D Laser Cutting of GFRP, CFRP, and further special materials

Thermal separating of thermosetting composites (GFRP, CFRP), thermoplastic composites, and natural materials

For 20 years we have been processing plastics by using thermal separation processes, which means using laser technology for various procedures.
 
There are three main composite materials we frequently process: thermosetting plastic composites, e.g. carbon fiber-reinforced fabrics (CFRP) and glass fiber-reinforced fabrics (GFRP); thermoplastic composites like organic sheets (carbon fiber embedded in a thermoplastic matrix); and PUR/pulp composites that combine thermoplastics and natural materials.
 
When processing composite materials, it is important to be in control of cutting emissions as well as the usual requirements such as reproducible clamping, cutting quality and dimensional accuracy.

Processing of plastics with highest flexibility for materials of up to 5 mm thick.
 
More information here

Logos, letterings, and numerations. We burn anything onto GFRP and CFRP.
 
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Professional lacquering of plastic composites inside our industrial paint booth.
 
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Multi-folds and edge parts made of various plastics.
 
Product examples and information here

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Our team is ready and waiting to put your ideas into practice.
 
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Aufgrund der starken abrasiven Wirkung der Faserteile, ist der Konturbeschnitt durch HSC Frästechnik nur schwer möglich. Im Gegensatz dazu steht uns mit unseren 3D-Laserschneidsystemen ein nicht abstumpfendes Werkzeug gegenüber, welches eine gleichbleibende Qualität gewährleistet.
 
Wir garantieren perfekte und reibungslose Abläufe, von der Beratung, über die Produktprogrammierung mit modernster CAD/CAM Technik, bis zum 3D Laserschneiden und der Qualitätssicherung mit unserer FARO Messtechnik.
 
Wenn Sie also einen Dienstleister suchen, auf den Sie sich jederzeit und uneingeschränkt verlassen können, dann sollten Sie Kontakt zu uns aufnehmen.

Fields of application for plastic and natural composites

In the automotive industry, aeronautical engineering, racing, manufacture of robots and drones, but also in the construction industry more and more companies are counting on light and strong composite materials.
3D laser cutting material mix
PUR/pulp composite
3D laser cutting cardboard tube
3D laser cutting of a cardboard tube

 
Laser cutting of GFRP, CFRP, composite and natural materials – technical details

In times of lightweight design and provisions for lowering fleet consumption in automotive and aviation industry, carbon as a light construction material is at an all-time high. Carbon is extremely light, while being very rigid and strong.
Other composite materials are developed to find appropriate solutions for meeting the increasing demand and raw material shortage.
  • Maximum size:
    1,500 mm x 3,000 mm x 700 mm
  • Minimum material thickness:
    0.1 mm
  • Maximum material thickness:
    40 mm
  • Further processing offer:
    HSC milling, laser welding, laser marking, engraving, thread cutting, drilling, and turning
  • Surface refinements:
    Lacquering, polishing, sandblasting, abrasive blasting, grinding, brushing, and further galvanic procedures
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