Career Contact +49 (0) 7071 14310 70

CNC milling & turning are computer-controlled subtractive fabrication techniques, which have a high degree of accuracy. In milling the workpiece is fixed in a vice and is machined by a rotating cutter tool. In turning the workpiece rotates and is machined by a fixed cutter tool. With just a few clicks, you can request a non-binding offer via KREATIZE. If you have questions or cannot find your material, call us on +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum part size: 800 x 500 x 500 mm

Tolerances: +/-  0.01 mm

Thread diameter: M2 to M12

Batch size: From 1 to 100+ pieces

Best file formats: STEP* + technical drawings as PDF*

 

*Tip:  In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Aluminum (AlmgS1, AlCuMgPb, …) #rust-free # weldable #light construction

+ Stainless steel (1.4401, 1.4301, …) # rust-free # great weldability

+ Tool steel (1.2767, 1.2842) #hardenable #rust-free #high-strength #injection-molded

+ Steel (S235, 1.0737, …) #great weldability # low stress

+ Plastics (PA 6, PVC, …) #simple further processing

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 10-15  working days. (Longer for larger quantities)

 

Advantages:

+ Precise machining of metal workpieces

+ Ideal for small series, for large series or for toolmaking

+ Lower unit costs for larger batch sizes

+ High levels of processing speed, accuracy and replicability

 

Remarks:

+ Due to the milling procedure, inside corners are rounded off.

+ Threads, holes and fittings possible only with technical CAD drawing.

 

Checklist:

+ STEP file

+ Material selection

+ Quantities

+ Potential desired surface treatment

+ Technical CAD drawings for threads, holes, fittings, roughness or tolerance requirements.

Lasercutting is a computer-controlled subtractive fabrication technique with a high degree of precision. It consists of cutting sheets of steel, stainless steel and/or aluminium by means of a laser. With just a few clicks, you can request a non-binding offer via KREATIZE. If you have questions or cannot find your material, call us on +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum sheet size: 3000 mm x 1500 mm

Available sheet thicknesses: 1mm – 20 mm

Tolerances: +/-  0.1 mm

Batch sizes: From 1 to 100 + pieces

Best files formats: DXF*

*Tip: In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Aluminium sheets (Almg3,…) #rust-free  #weldable

+ Stainless steel sheets (1.4301, 1.4571,…) #rust-free #great weldability

+ Steel sheets (S235, DC01,…) #great weldability #oiled

 

Delivery and shipping.

+ There are no shipping costs.

+ Shipped within 1 – 5 working days.

 

Post-processing:

+ Upon request, all your components can also be deburred or glass bead blasted.

 

Advantages:

+ Short delivery time

+ Complex sheet metal operations

+ Little to no post-processing necessary

+ Low costs  also for small batch quantities

 

Remark:

+ Threads, holes and fittings possible only with technical CAD drawing

 

Checklist:

+ DXF file of part geometry – without its drawing frame

+ Sheet thickness

+ Material selection

+ Quantities

+ Specify any surface treatment

+ Technical CAD drawings for threads, holes and fittings

Waterjet Cutting is a computer-controlled  subtractive fabrication technique with a high degree of accuracy. It consists of selectively cutting sheets of steel, stainless steel and/or aluminium through an abrasive water mixture and by means of a high-pressure waterjet. With just a few clicks, you can request a non-binding offer via KREATIZE. If you have questions or cannot find your material, call us on +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum sheet size: 3000 mm x 1500 mm

Available sheet thicknesses: 1mm – 50mm (0.5 mm Increments)

Tolerances: +/-  0.1 mm

Batch sizes:  From 1 to 100+ pieces

Best files formats: DXF* or STEP*

 

*Tip: In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Aluminium sheets (Almg3,…) #rust-free #weldable #light construction

+ Stainless steel sheets (1.4301, 1.4571,…) #rust-free #great weldability

+ Steel sheets (S235, DC01,…) #great weldability #oiled #low duty

+ Wood, plastic and glass are also available #upon request

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 1 – 5 working days.

 

Post-processing:

+ Upon request,  all your components can also be deburred or glass bead blasted.

 

Advantages:

+ Short delivery time

+ Complex sheet metal work

+ Little to no post-processing necessary

+ Low costs also for small batch sizes

 

Remarks:

+ Threads, holes and fittings possible only with technical CAD drawing

 

Checklist:

+ DXF file of part geometry – without its drawing frame

+ Sheet thickness

+ Material selection

+ Quantities

+ Specify any surface treatment

+ Technical CAD drawings for threads, holes and fittings

Also known as: SLS, Laser Sintering, Laser Sintern

Selective Laser Sintering is a highly accurate additive fabrication technique, which consists of sintering thin layers of a non-metallic powder by means of a laser beam. Thus, it constructs the component layer-by-layer. With just a few clicks, you can request a non-binding offer via KREATIZE. If you have questions or cannot find your material, call us at +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum part size: 450 x 400 x 400 mm

Average layer height: 0.08 mm

Min. Wall thickness: 0.8 mm

Tolerances: +/-  0.3 mm

Colors: White, black

Batch sizes: From 1 to 10+ pieces

Best files formats: STEP* or STL*

 

*Tip: In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ PA (PA 12) # high-strength # high-rigidity # white # dyeable #lightweight 

+ PA aluminum reinforced (alumide) #metal look #good thermal conductivity 

+ PA glass fiber reinforced (PA 3200 GF) #very high rigidity #thermal capacity 

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 1 – 5 working days.

 

Advantages:

+ Widely used, cost-effective manufacturing process.

+ Produces complex components with superb mechanical properties.

+ Ideal for prototypes and small batches.

 

Remarks: :

+ Dyeing on request and threaded inserts possible with technical drawings.

 

Checklist:

+ STEP file preferred over STL file

+ Material selection

+ Quantities

+ Potential desired colouring

+ Technical CAD drawings for threads, holes and fittings

Also known as: MJM, Material Jetting, Drop-on-demand &  Inkjet Printing

Multi-Jet Modeling is an additive fabrication technique with high levels of resolution. This manufacturing process is similar to the principle of a 2D inkjet printer. It consists of applying a photopolymer to the build platform either continuously or in drops by means of a printhead. The material layers are then hardened by UV light. The component is constructed layer-by-layer. With just a few clicks, you can request a non-binding offer via KREATIZE. If you have questions or cannot find your material, call us at +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum part size: 300 x 200 x 200 mm

Average layer height: 0.02 mm

Min. structure size: 0.1 mm

Tolerances: +/-  0.025 mm

Colors: Acrylic (transparent) & Silicon (white)

Batch sizes: From 1 to 10+ pieces

Best files formats: STEP* or STL*

 

*Tip:  In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Acrylic (AR-M2) #transparent #very fine surface #glueable #polishable

+ Silicon (AR-G1L, AR-G1H) # white #elastic #smooth surface

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 1 – 5 working days.

 

Advantages:

+ High resolution and adequate surfaces

+ Special waxes for the production of molds are available

+ Materials are available in different colors

+ Ideal for prototypes or models involving injection molding

Remarks:

+ Threads, holes and fittings are not possible.

Checklist:

+ STEP file preferred over STL file

+ Material selection

+ Quantities

Also known as: FDM, Fused Filament Fabrication (FFF), Fused Layer Modeling or Fused Layer Manufacturing (FLM)

Commonly used in 3D Printing, Fused Deposition Modeling is an additive fabrication technique with a high level of accuracy. It first consists of heating a filament of plastic. Once it has melted, the filament is extruded through a nozzle and is deposited on a building platform. The plastic material hardens as the component is constructed layer-by-layer. With just a few clicks, you can request a non-binding offer via KREATIZE.  If you have questions or cannot find your material, call us at +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum part size: 550 x 400 x 350 mm

Average layer height: 0.13 mm

Min. Wall thickness: 0.5 mm

Min. structure size: 0.18 mm

Tolerances: +/-  0.3 mm

Color: Black

Batch sizes: From 1 to 10+ pieces

Best file formats: STEP* or STL*

 

*Tip: In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Nylon (PA6) #stable #black #functional components

+ Nylon (ONYX) #extremely stable #shiny black looks #micro-carbon fibers 

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 1 – 5 working days.

 

Postprocessing:

+ Components can be ground or painted.

 

Advantages:

+ Widely used, cost-effective manufacturing process

+ Produces complex components with adequate mechanical properties

+ Ideal for prototypes, for small series, as well as, for tool production

+ Post-processing can be carried out like on any other plastic

 

Remarks:

+ Threads, holes and fittings possible only with technical CAD drawing.

 

Checklist:

+ STEP file preferred over STL file

+ Material selection

+ Potential desired colouring

+ Quantities

+ Technical CAD drawings for threads, holes and fittings

Also known as: SLM, Laser Melting, Direct Metal Laser Sintering (DMLS), Laser Cusing, Laser Beam Melting

Selective Laser Melting is an additive fabrication technique with a high degree of precision. It consists of fusing thin layers of metal powder together, by means of a laser beam. The process is repeated and the component is constructed layer-by-layer. With just a few clicks, you can request a non-binding offer via KREATIZE.   If you have questions or cannot find your material, call us at +49 (0) 7071 14310 70, or send your request to sourcing@kreatize.com.

Technical specifications:

Maximum part size: 400 x 350 x 350 mm

Average layer height: 0.03 mm

Min. Wall thickness: 0.5 mm

Min. structure size: 0.04 mm

Relative density : > 99.5 %

Tolerances: +/-  0.2 mm

Batch sizes: From 1 to 10+ pieces

Best file formats: STEP* or STL*

 

*Tip: In order for you to receive an offer faster, please send us the pure cut contour and dimensions in the supported file format.

 

Materials:

+ Stainless steel (1.4404, AlSi9Cu3,…) #rust-free #great weldability #mechanical engineering 

+ Tool steel (1.2709)  #temperable #rust-free #high-strength #injection molding 

+ Aluminium (AlSi10Mg) #rust-free #weldable #lightweight #machinery #automobile

+ Titanium (CL 40TI, Ti6Al4V, …) #rust-free #heat-resistant #high-strength

+ Nickel (Inconel 625, Inconel 718) #rust-free #high-strength #aeronautics 

 

Delivery and shipping:

+ There are no shipping costs.

+ Shipped within 2 – 7 working days.

 

Postprocessing:

+ The components can be slightly sandblasted to smoothen the surface.

 

Advantages:

+ Produces complex components with adequate mechanical properties.

+ Ideal for prototypes, for small series, as well as, for tool production.

 

Remarks:

+ Threads, holes and fittings possible only with technical CAD drawing.

 

Checklist:

+ STEP file preferred over STL file

+ Material selection

+ Quantities

+ Technical CAD drawings for threads, holes and fittings