Helping customers for 25 years
Our company boasts 25 years of experience in the manufacture of carbon, aramid and fiberglass components. We are proud to have become leaders in our industry through our uncompromising approach to innovation, quality and sustainability. Thanks to our years of experience, we are able to supply high-end components to small and large companies in a wide range of industries: automotive, aerospace, sports, medical devices, design and more.
We deal with production from design to realization and painting of the product
We use technologies such as autoclave, 3D printers (for fast and precise product production), plotter for prepreg template production, robotic hands for precise product processing. We cooperate with a paint shop, but we also paint smaller parts ourselves. All in all, the combination of these innovative technologies enables the production of parts and products with high quality, strength and precision, which is crucial for competitiveness in modern industry.
Comprehensive solution
We offer a comprehensive solution to the requirements from the design of the composition and type of material according to the required properties, suitable technological process, production of models, moulds, prototypes to serial production. We always adapt to the requirements of our customers.
Comprehensive solution
We offer a comprehensive solution to the requirements from the design of the composition and type of material according to the required properties, suitable technological process, production of models, moulds, prototypes to serial production. We always adapt to the requirements of our customers.
Individual approach
We help customers with both custom production and mass production. Thanks to our many years of experience in laminating and our focus on new technologies, we always look for the most advantageous solutions in terms of cost, time and quality.
Quality and innovation
As a supplier to the automotive industry, we are constantly working to improve quality management. Therefore, every product undergoes an output inspection where its parameters are checked. Together with our supplier GRM Systems, we test innovations that we put into practice.
Vertical wind turbine
Carbon fiddles and bushings
Tables with natural elements
Carbon table
Technologies used
Composite materials are laminate structures made of two or more components. The harder, stiffer and stronger reinforcement is represented by carbon, aramid, glass fabrics and their hybrids, aluminized and diolene fabrics, rovings, sandwich and other materials. The binder function is performed by resins and complementary epoxy systems or polyesters in combination with glass mats and fabrics.
Manual lamination
The individual layers of fabric are placed in a mould and impregnated with resinA classic form of lamination where individual layers of fabric are placed in a mould and impregnated with epoxy resin. Manual lamination can be complemented by vacuum lamination, where the entire mould is placed in a vacuum bag to achieve a better surface finish on the product.
Vacuum infusion
A method in which fabric is placed in a dry mouldA method in which the fabric is placed in a dry mould. After the layers have been loaded, the mould is placed in a vacuum bag and the resin is sucked in through the vacuum to saturate the fabric in the mould.
Autoclave
Autoclave products achieve a better surface finish and improved strengthA method in which the product is placed in a pressure vessel where temperatures up to 250 °C and pressures up to 10 Bar can be achieved. In autoclave lamination, so-called prepregs are used. These are pre-impregnated fabrics that already contain resin. Autoclave products achieve a better surface finish and better strength than conventional hand lamination.
SMC
Sheet Moulding CompoundSMC (Sheet Moulding Compound) is a composite material composed mainly of resin and chopped glass or carbon fibre, which is supplied in the form of sheets that are kept frozen. The material can be cut into desired shapes, which are layered on top of each other and formed into the desired shape in a press or autoclave using high temperature and pressure. The products are characterised by high strength and hardness.
Translated with www.DeepL.com/Translator (free version)
Materials used
The basic materials used in the manufacture of composite products are glass, carbon (carbon) and Kevlar (aramid) fabrics. A composite is always a combination of a fabric and an epoxy or polyester resin that saturates the fabric and gives it strength and shape.
Carbon fabrics
Carbon or carbon fabrics are characterized by high strength and very low weight. The type of fibre weave in the fabric determines the final appearance of the product and also affects its physical properties. Carbon fabrics are most commonly produced in canvas or twill (woven with a single fibre). Individual carbon fabrics vary in weight in grams per m² or in fibre width.
Kevlar fabrics
Kevlar or aramid fabrics are synthetic fabrics that are characterized by high tensile strength of the fibers, resistance to high temperatures and high absorption of impact energy. Kevlar is also used, for example, for the manufacture of bulletproof vests, but also for parts where high abrasion or fracture resistance is required. The fabrics differ from each other in terms of grammage per m² or fibre pattern.
Glass fabrics
Kevlar or aramid fabrics are synthetic fabrics that are characterized by high tensile strength of the fibers, resistance to high temperatures and high absorption of impact energy. Kevlar is also used, for example, for the manufacture of bulletproof vests, but also for parts where high abrasion or fracture resistance is required. The fabrics differ from each other in terms of grammage per m² or fibre pattern.
Hybrid fabrics
Hybrid fabrics are a combination of two or more types of materials. The most commonly used combinations are carbon and Kevlar (aramid-carbon fabric), where both high strength and toughness are achieved. Other combinations used are glass-carbon hybrids or polyethylene-carbon hybrids.
Sandwich materials
Sandwich structures are a special type of laminate composite consisting of two outer rigid layers and a core of lightweight material. Sandwiches, unlike single laminates, are characterised by higher stiffness, better insulating properties and lower weight. They are used as a core in structures where the emphasis is on low weight. PUR and PVC sheets or aramid and aluminium honeycomb are most commonly used as the core of the composite.
What's new with us...
We have a new addition – PLOTER
Due to the increasing demand for carbon fiber products and the need to increase our production capacity, we decided to acquire another piece of equipment…
We have purchased new 3D printers
In the fall, the decision was made to purchase a smaller 3D printer to increase flexibility in our production line. By pushing a button and…
Training of our employees
In January 2020, we decided to train our employees with the course Plastic Moulder for Aircraft 23- 136-H, which is completed with the NSK State…
The impact of the coronavirus epidemic on our business
The current situation regarding the epidemic is something that we have not encountered before in our lifetime and is therefore a new experience and a…
We started cooperation with the Ultimate Dakar racing team
It was 2020 – a year full of new challenges and opportunities. And it was the year we started working with the Ultimate Dakar racing…
Extension of working machines with autoclave
Your dream has become a reality, in 2019 we purchased an Italmatic autoclave. Now we can produce products with the best surface finish by modern…
Our partners
EU projects
Evaluation and assessment of the current vertical axis wind turbine design for building installation