Take a look at all technologies we provide, for rapid prototyping
3D printing utilises computer-aided design to produce three-dimensional objects by layering materials, like plastics, composites etc.
CNC machining is a process that utilizes computerized controls to manage the movement and operation of multi-point rotary cutting tools.
Modifying sheet metal sheets in to desired form using bending, welding and laser cutting technologies to create parts and assemblies.
Additive manufacturing
3D printing utilises computer-aided design to produce three-dimensional objects by layering materials, like plastics, composites or bio-materials to create objects that range in shape, size, rigidity and color.
FDM technology extrudes a thick string of plastic material through a heated nozzle.
SLA technology cures liquid resin into hardened plastic with a light source such as a laser or projector.
SLS technology uses a high-powered lasers to fuse small particles of polymer powder.
Best used for demos, prototypes, low load applications. Material intended for internal use and ascetic models.
Strong material resistant to abrasion and heat. It is used to make gears, parts that require heat resistance.
Durable material with a good finish, resistant to shocks and heat. Best for bolt-on mechanical parts and enclosures.
Best used for rubber, elastic shock-resistant parts. Can be used for caps, belts, hats, phone cases, bumpers and much more.
Extremely resistant to high temperatures and impacts. Ability to bend without cracking and to resist temperatures even up to 110°C.
Strong, but also flexible, material which makes it difficult to break. Best used for functionally strong parts that are dynamically loaded.
Polyamide with 30% of glass fibers. GF30-CF provides superior strength and resistance to chemicals and UV radiation.
PETG is reinforced with carbon fiber, making it a superior choice for industrial applications such as tools and end-use parts.
Polyamide with 30% of carbon fibers. Combines high temperature and chemical resistance with extreme mechanical properties.
Great for fluidics and mold making, optics, lighting, electronic casings and any parts requiring translucency or showcasing internal features.
High precision, moderate elongation, and resistance to deformation over time versatile and suitable wide range of engineering projects.
Glass filled resin is the stiffest material in our engineering portfolio. For precise industrial parts that need to withstand significant load without bending.
Highly capable material for both functional prototyping and end-use production of complex assemblies and durable parts with high environmental stability.
Nylon carbon fiber filled is all in one high performance material, perfect for end-use applications that require both superior stiffness and strength.
Glass filled material with enhanced stiffness and heat resistance. Ideal for applications where structural rigidity and thermal stability are critical.
Substractive manufacturing
CNC machining is a process that utilizes computerized controls to manage the movement and operation of multi-point rotary cutting tools.
Our wide network of manufacturing factories can produce prototypes and end use parts from metals like S235JR, 316L, Ti 64 and more...
Our wide network of manufacturing factories can produce prototypes and end use parts from any type of wood you may need.
Our wide network of manufacturing factories can produce prototypes and end use parts from plastics like PC, PE, PTFE and more...
Deformative manufacturing
Modifying sheet metal sheets in to desired form using bending, welding and laser cutting technologies to create parts and assemblies.
Our wide network of manufacturing factories can produce prototypes by bending metal in to desired shape with CNC presses.
Our wide network of manufacturing factories can produce prototypes by welding metal parts in to desired shape with MIG, MAG and TIG tech.
Our wide network of manufacturing factories can produce prototypes by cutting metal parts with fiber or CO2 lasers in desired shape.
