Rozwin

 

3D-Druck-Technologien

 

PolyJet  / UV-curable spray acrylic technology

Technology for creating models from a single type of UV-curable acrylic resin, which allows for obtaining a model with the best mapping.

Its advantages include highest resolution and top-quality print, wide variety of materials and possibilities of further processing (drilling, grinding, or painting).

 

PolyJet Matrix / UV-curable spray two-component technology

Technology for creating models from two types of UV-curable acrylic resin, which allows for obtaining a model with the best mapping.

Its advantages include highest resolution and top-quality print, wide variety of materials (hard and flexible/rubber-like) and possibilities of further processing (drilling, grinding, or painting).

 

FDM  / printing with melted plastic

Technology for creating models with the use of melted thermoplastics.

Its advantages include the speed of print (particularly with massive single elements), ability to obtain a model with very high resistance parameters (both mechanical and thermal), further processing opportunities.

 

SLS  / powder technology of curing polyamide with laser

Selective laser sintering is an incremental method used for producing prototype models, consisting in merging layers of polyamide powder with the use of a ray of laser light. Various types of plastics are used in the process, from the basic ones to the ones enriched with fibreglass or aluminium.

Its advantages include very good mapping accuracy, ability to obtain a model with very high resistance parameters (both mechanical and thermal), speed of print and further processing opportunities.

 

DMLS / powder technology of curing metal with laser

The DMLS technology of directly merging metal powders with laser is the latest incremental technology. It allows for developing highly precise prototypes, parts of machines, and fully functional and durable products, e.g. tools, or injection mould elements.

Its advantages include high resistance parameters and high thermal resistance of produced prototypes, very good mapping of a digital model and further processing opportunities (drilling, milling, polishing).
Materials used with this technology include aluminium, nickel, stainless steel, titanium, and others.