3DGence Sp. z o. o. realizuje projekty dofinansowane z funduszy Unii Europejskiej. ue
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Wsparcie R&D

Dzięki wsparciu zespołu inżynierów z wieloletnim doświadczeniem w obszarze technologii przyrostowych jak również konstruowaniu i budowie maszyn wesprzemy Cię w kompleksowej realizacji Twojego projektu. W ramach R&D świadczymy wsparcie w obszarze:

  • Mechaniczno-konstrukcyjnym
  • Elektryki/Elektroniki/Automatyki
  • Oprogramowania wbudowanego
  • Technologii przyrostowych

Zadzwoń do nas:

+48 517 921 768

 

Napisz do nas:

[email protected]

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    3D printing services

    Your production line with 3D printing. Professional projects analysis and consulting.

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      Our 3D services

      3D printing

      3D scanning

      Consulting

      Post-processing

      3D modelling

      3D printing

      3D printing at your fingertips.

      Use the 3D printing services. Together with us you will implement a project in any 3D printing technology. We print spatially in FDM, SLS, SLA, DMLS and PolyJet technologies. Thanks to our experienced engineers and an extensive 3D printer park, you can be sure that your 3D print will be of the highest quality.

      Contact us and find out what the price of your 3D model will be printed.

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      3D scanning

      Skanowanie 3D felgi aluminiowej samochodu.

      Thanks to the latest technologies, 3D scanning allows you to create extremely precise scans with an accuracy of up to 0. 05 mm. Measurements are made for both small and large models, from 0. 05 m to 4 m. It is possible to obtain a detailed 3D model for almost every object, which at a later stage can be processed in a CAD program and printed on a 3D printer.

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      Skanowanie 3D felgi aluminiowej samochodu.
      Wydruk 3D na stole. Człowiek konsultuje swój projekt drukowania 3D.

      Consulting

      Wydruk 3D na stole. Człowiek konsultuje swój projekt drukowania 3D.

      Advice on 3D printing technology is a service within which appropriate printing parameters and optimal technical materials will be selected. The first stage is to identify the customer’s needs and choose the appropriate 3D printing technology. Then the appropriate materials and parameters of the printing process are selected. The final stage is to create a free valuation of the 3D printing service in the selected technology.

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      Post-processing

      Wydruk 3D poddawany obróbce. Malowany pędzlem.

      In order to achieve the desired visual and tactile results, which increase the added value of 3D printing, both chemical and mechanical processing is offered. Our modeling work offers: folding or gluing prints, chemical treatment, mechanical treatment, UV exposure of resin prints, rotational polishing (SLS), surface dyeing (SLS), mudding and sanding, painting and varnishing.

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      Wydruk 3D poddawany obróbce. Malowany pędzlem.
      Model 3D czerwonej tacy transportowej na ekranie laptopa.

      3D modelling

      Model 3D czerwonej tacy transportowej na ekranie laptopa.

      The process of creating CAD models is based on the technical documentation sent by the customer.

      Then a digital 3D model is generated, designed for later printing in the selected 3D printing technology. The formats most commonly used to create digital models are: IGS, OBJ, STP, X_T, STL, AutoCad, CATIA, STEP, REVIT, IronCAD, FreeCAD, SAT, PARASOLID, NX, Blender, ACIS, 3DMAX, CREO, ArchiCAD, IGES, Inventor, SolidEdge, SolidWorks, Rhino, ThinkDesign, ZW3D, SketchUp and others.

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      3D prints​

      FDM

      FDM

      FDM

      SLS

      SLS

      PolyJet

      Rotor cover printed in 3D in SLS technology made of PA 2200 filament, surface-colored black on the EOS P396 3D printer
      3D printing in FDM technology from PC CF filament on the 3DGence INDUSTRY F340 3D printer
      A test prototype of a sports steering wheel 3D printed in FDM technology with a PC filament on a 3DGence F420 3D printer
      Prototyp pokazowy konektora wydrukowanego w 3D w technologii FDM filementem Metalfil na drukarce 3D 3DGence Double P25
      Crossover 3D printed in DMLS technology from stainless steel on the EOS M290 3D printer
      Bone model of the lower jaw printed in FDM technology from ABS filament on a 3DGence INDUSTRY F340 3D printer
      A bust 3D printed in FDM technology from a Bronzefill filament on a 3DGence DOUBLE P255 3D printer
      Differential model 3D printed in SLS technology from PA 3200 GF filament on the EOS P396 3D printer
      Test station 3D printed in MJF technology with PA 12 filament on the HP Jet Fusion 5200 series printer
      Mold for vulcanization of rubber covers, 3D printed in FDM technology with PEEK filament on a 3DGence INDUSTRY F420 3D printer
      Pressure cap 3D printed in SLS technology with PA 2200 filament on the EOS P396 3D printer
      Positioner for precise drilling, 3D printed in SLA technology from Clear resin on a Formlabs Form2 3D printer
      Pump cover 3D printed in FDM technology with ULTEM 9085 filament on 3DGence INDUSTRY F420 3D printer
      A collector's figure printed in 3D in SLA technology with Clear resin on a Formlabs Form2 3D printer
      Prototyp gniazdka wydrukowanego w 3d w technologii SLA żywica Grey Pro na drukarce 3d Formlabs Form2
      Model printed in 3D in FDM technology from PEEK filament on the 3DGence INDUSTRY F340 3D printer
      A silicone grommet 3D printed in SLA technology with Elastic resin on a Formlabs Form2 3D printer
      A rubber cover printed in 3D in FDM technology made of Flexfill 98A filament on a 3DGence INDUSTRY F340 3D printer
      Rotator 3D printed in FDM technology with a PC filement on the 3DGence F420 3D printer
      Mounting bracket 3D printed in FDM technology with PC CF filament on the 3DGence INDUSTRY F340 printer
      Zwrotnica_FDM_PC i PC+ESM10_3DGence F420
      A test prototype of a sports steering wheel 3D printed in FDM technology with a PC filament on a 3DGence F420 3D printer
      Mounting bracket 3D printed in FDM technology with PC CF filament on the 3DGence INDUSTRY F340 printer
      Prototyp gniazdka wydrukowanego w 3d w technologii SLA żywica Grey Pro na drukarce 3d Formlabs Form2
      Bone model of the lower jaw printed in FDM technology from ABS filament on a 3DGence INDUSTRY F340 3D printer
      Crossover 3D printed in DMLS technology from stainless steel on the EOS M290 3D printer
      Mold for vulcanization of rubber covers, 3D printed in FDM technology with PEEK filament on a 3DGence INDUSTRY F420 3D printer
      Model printed in 3D in FDM technology from PEEK filament on the 3DGence INDUSTRY F340 3D printer
      Test station 3D printed in MJF technology with PA 12 filament on the HP Jet Fusion 5200 series printer

      3D printing applications

      Medical

      Automotive

      Architecture

      Education

      Wydruk 3D modelu anatomicznego czaszki

      Druk 3D znajduje coraz szersze zastosowanie w medycynie i pozwala na szczegółowe planowanie operacji. Pozwala to na dobranie odpowiedniej techniki operacyjnej, omówienie jej w zespole i skrócenie czasu samego zabiegu.

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      Wydrukowany w 3D prototyp kolektora samochodu pożarniczego.

      Zastosowanie 3DGence INDUSTRY F340 pozwoliło zweryfikować kolektor próżniowy, który jest jednym z elementów tworzących układ hydrauliczny wozów strażackich.

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      Wydruk 3D makiety architektonicznej

      W procesie rewitalizacji ważne jest przedstawienie bryły budynku z wysokim detalem nawiązującym do pierwotnego projektu. PANOVA stworzyła skomplikowany model budynku na podstawie materiałów archiwalnych z 1897 roku w skali 1:75 przy użyciu technologii druku 3D.

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      Wydrukowany w 3D prototyp zwrotnicy do samochodu wyścigowego

      Elektryczna rewolucja samochodowa może być wspierana przez technologię druku 3D. Dzięki drukarce 3D AGH Racing mogło przetestować oryginalny projekt zwrotnicy przy bardzo niskich kosztach i w ciągu zaledwie dwóch dni.

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      3D printing service cost

      Application

      Steering knuckle prototype used to examine the design topology. The project was developed to reduce the weight and increase the stiffness of the element. 3D printed from ABS + HIPS-X. DIMENSIONS: 210 mm x 160 mm x 60 mm.

      3D printing prices are based on a series of factors, such as volume and size of an object, quantity and type of the material used, or time and working technique when making a 3D printout. You can read more in our article, see examples or contact our experts. Calculation of a 3D printing service takes the maximum of 24 hours at 3DGence and is a basis for carrying out a more accurate cost-effectiveness analysis.

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      ULTEM manifold
      Cost: 240 EUR Time: 14 hours
      Dimensions: X=230 Y=103.98 Z=180



      Rotator PC + ESM
      Cost: 135 Euro Time: 23.5 Hours
      Dimensions: X=166.29 Y=178.18 Z=56.34



       

      PEEK + ESM combined valve
      Cost: EUR 120 Time: 27 hours
      Dimensions: X=103.5 Y=107 Z=59.3

      Przybliżony koszt

      150 PLN

      Czas produkcji

      6,5 godziny

      Companies we have helped​

      MVRDV

      "The 3DGence company was of great help to MVRDV when our in house 3D printers were not able to perform our desired functions. 3DGence offered us proffessional consultations, by not only choosing the correct metod for our model, but also provided advice on how to improve our own models in the future. 3DGence provided us with two very precisely made models on time, a request other printing companies could not cope with. The whole cooperation process was very smooth and professional, which was appreciated by the whole team."

      Sven Thorissen, Director/Architect, MVRDV

      Famur

      "So far we have shown our machines weighing up to several tens of tons at fair stands! This involved very expensive transportation. The miniature machines printed by 3DGence Services not only generated a lot of interest at the show among our booth visitors but also helped us streamline transportation and reduce expenses!"

      Karolina Pastryk, Marketing and PR Manager

      3D printing technologies

      SLS

      SLA

      FDM

      DMLS

      PolyJet

      Multi Jet Fusion

      Wydruk 3D w technologii SLS.

      SLS

      Wydruk 3D w technologii SLS.

      The technology of laser sintering of polyamide powders guarantees the highest durability and repeatability of mass-produced items. It enables the production of hundreds/thousands of pieces in a single printing cycle. In addition, the SLS technology does not require the use of supports – models are supported by excess loose material surrounding the print. This allows for trouble-free printing of many more complex geometries than using other 3D printing methods.

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      SLA

      Wydruk 3D w technologii SLA.

      Curing the liquid resin with a laser beam guarantees good quality and high resolution of built parts. The SLA technology enables the printing of complex geometries with high precision combined with the possibility of using a wide range of functional materials. It is the most precise 3D printing technology in the world. It can reproduce the smallest details of printed models.

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      Wydruk 3D w technologii SLA.
      Wydruk 3D w technologii FDM.

      FDM

      Wydruk 3D w technologii FDM.

      FDM is a method of applying a melted thermoplastic material in layers to a printed model. This technology enables the creation of utility models, prototypes, marketing mock-ups or composite elements. It is the most optimal method for rapid prototyping of parts that must maintain the required standard tolerance. This technology guarantees high quality, affordability, and short lead times.

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      DMLS​

      Wydruk 3D w technologii DMLS.

      DMLS is a 3D printing technology using powdered metal alloys that guarantees the highest quality. It makes it possible to print geometries and structures that cannot be milled on a CNC machine. Direct Metal Laser Sintering has great advantages over traditional production techniques, as even complex objects can be produced in a single production cycle thus reducing production costs. DMLS technology combined with topology analysis enables the production of lighter parts compared to conventional manufacturing methods.

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      Wydruk 3D w technologii DMLS.
      Wydruk 3D w technologii PolyJet.

      PolyJet

      Wydruk 3D w technologii PolyJet.

      PolyJet is an ultra-precise printing technology using photopolymer resin and a soluble support material. It allows the production of prototypes with the appearance of the final products. PolyJet technology is well suited to the production of precision parts where no deviation is allowed. It is dedicated to the creation of final prototypes of high quality and smooth surface.

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      Multi Jet Fusion

      The technology of layered bonding of polyamide powders using print hotends and a chemical activator. Due to printing characteristics, immediately after the completed process, we achieve a lower surface porosity compared to other polyamide sintering methods. Thanks to the use of fine grain materials, printed layers can be only 80 microns high. Consequently, an extremely smooth surface is obtained straight from the printer, and functional components require minimal post-production finishing. This means short lead times, ideal for functional prototypes, small and medium size batches of finished parts.

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