Sustainable
materials

WHY INNOVATE WITH SUSTAINABLE MATERIALS?

Innovation towards sustainable materials brings not only ecological but also strategic benefits to companies. Wood and composite components can replace plastics or metals with lighter, more durable and more cost-effective alternatives. Your customers and markets are increasingly demanding a responsible approach to production, and the use of renewable materials strengthens your brand image and its competitiveness. An investment in sustainability is therefore also an investment in the future of production.

KEY BENEFITS OF SUSTAINABLE MATERIALS

  • Lighter than metal components
  • Durable and strong even with technically demanding use
  • Antibacterial properties suitable for specific applications
  • Ecological and renewable resources instead of plastics and metals
  • Economically advantageous due to lower material and processing costs

WOOD

Wood is a timeless, sustainable and natural material that can combine aesthetics with high functionality. Thanks to its lightness and good workability, it offers solutions that are not only ecological but also affordable. The use of wood in industry allows replacing plastics and metals with a material with a minimal carbon footprint. It is a material with tradition, which is also the key to sustainable innovation.

Technical description:
Wood is a natural polymer material consisting mainly of cellulose, hemicellulose and lignin. It is characterized by low weight with good compressive and tensile strength. It has good insulating properties, is easy to process using conventional and CNC technologies. It reacts sensitively to humidity and temperature, therefore it requires appropriate design solutions or surface treatment. It is a renewable resource with wide availability.

STABILIZED WOOD

It represents a modern way to take a natural material to a higher level. Thanks to a special impregnation, it gains excellent moisture resistance, dimensional stability and long life. It is an exclusive material suitable for precision parts, where functionality and aesthetics are combined.

Technical description:
Stabilized wood is natural wood impregnated with polymer resins that penetrate its structure. This significantly increases dimensional stability, strength and resistance to moisture, mold or rot. It is suitable for the production of parts with high demands on precision and long service life. It is also used in combination with decorative use due to the possibility of coloring.

COMPOSITES

Composites offer a unique combination of lightness and strength, which allows them to replace heavier and less environmentally friendly materials. Thanks to precisely defined properties, they are suitable for the production of technically demanding parts, where durability and long service life are important. For customers, they represent a modern, reliable and sustainable solution for industrial production.

Technical description:
Composite materials are composed of multiple components (e.g. reinforcing fibers and binder), thus achieving a combination of properties that the individual components do not have separately. They are characterized by high tensile and compressive strength at low weight. They are resistant to wear, chemicals and temperature influences. They are used wherever it is necessary to achieve specific mechanical properties at lower weight.

KARTIT HP

It is an affordable, strong and durable material that can replace both plastics and metals in a number of industrial applications. Its versatility makes it suitable for parts where strength, stability and ease of machining are required. It is a proven solution with a long tradition in industry.

Technical description:
Kartit is a pressed laminate based on paper and phenol-formaldehyde resin. It is characterized by high strength, resistance to oils and common chemicals. It has good electrical insulation properties and wear resistance. It is easy to machine and is used mainly in electrical engineering, mechanical engineering and structural applications.

TEXTIT HGW

Textit combines durability and flexibility with a more environmentally friendly composition compared to many synthetic materials. Thanks to its excellent stability and strength, it is suitable for the production of mechanically stressed parts. For customers, it represents a reliable and economically advantageous alternative to plastics or metals.

Technical description:
Textit is a layered laminate made from cotton fabrics impregnated with phenol-formaldehyde resin. Its advantages are high strength, toughness and impact resistance. Thanks to its good sliding properties, it is used as a structural material for bearings, gears and friction parts. It also has good electrical insulation properties and moisture resistance.

MULTIPLEX

Multiplex is a multi-layer material that combines high strength with dimensional stability. Thanks to modern wood layering technology, it is suitable for the production of durable and long-term reliable components. Customers appreciate its versatility, ecological properties and attractive price/performance ratio.

Technical description:
Multiplex is a multilayer plywood, usually made from birch or beech veneers. Its layered structure gives it high strength, stability and resistance to deformation. It withstands mechanical loads well and, thanks to its homogeneous structure, is suitable for precision machining. It is used in demanding industrial and design applications.

PERTINAX

Pertinax is a proven technical material that offers an excellent price-strength-reliability ratio. It is the ideal choice for industrial parts where stability, precision and long service life are key. Thanks to its good machinability, it enables fast and efficient production of small series components. For customers, it represents an economical alternative to plastics or metals while maintaining high technical parameters.

Technical description:
Pertinax is a laminated laminate based on paper impregnated with phenol-formaldehyde resin. It is characterized by good mechanical strength, dimensional stability and very good electrical insulation properties. It is resistant to oils, lubricants and common chemicals. It is easily machined with CNC technologies and is commonly used in electrical engineering, mechanical engineering and structural applications with lower to medium mechanical stress.

GLASSTEXTITE

Glass-fiberglass is a highly durable composite material designed for demanding industrial applications. It offers exceptional strength, long life and stability even under high loads. It is the ideal choice where conventional materials are not sufficient — for example, for structural parts exposed to mechanical and thermal stress. It brings customers a reliable solution for technically demanding components with minimal maintenance.

Technical description:
Glass-textile is a laminate made of glass fabrics impregnated with epoxy or phenolic resin. Compared to textile or pertinax, it achieves significantly higher strength, stiffness and temperature resistance. It has excellent electrical insulation properties and very good chemical resistance. Due to its homogeneity, it is suitable for precise CNC machining and is used primarily in electrical engineering, mechanical engineering and the production of highly stressed structural parts.