3D PRINTING SERVICES USING PLASTIC OR SAND

JSC "3D Creative" is a leading 3D service provider in the Baltic States, whose business includes 3D scanning, 3D modeling, and 3D printing. In order to remain a leading company in the modern and fast-paced 3D service sector, we offer our customers a wide range of different options for 3D printing methods.

3D printing

VX200Our company provides 3D printing services using over 20 different types of plastics such as ABS, PLA, GLACE, ASA, PETG, HIPS, NYLON, FLEX, WoodFill, PMMA, PA, PA CF, UV  resin, etc. and quartz sand. We work with professional VoxelJet, EOS, HP MJF, Mass Portal, Zortrax, Formlabs, and Modix 3D printers, thus providing a wide range of 3D printing services.

  • Precise quality and accuracy.
    Printing layer thickness: sand - 200 µm,
    plastic -  from 25 µm.
  • Unique and the only ones on the market solid product sizes
    Sand - 4000 x 2000 x 1000 mm
    Plastic - 600 x 600 x 600 mm
  • Small series 3D printing
    The ability to print multiple products or multiple units of the same product at the same time. This allows you to offer shorter deadlines.

3D model is all we need to get started. If you don't have it, our modelers and designers will help you create it. The deadline for completing the work varies from 1 to 15 working days and depends on the selected material, product size, quantity, and complexity. Read more about order progress in section Orders.

Application of our 3D printing services

aluminium cylinder head3D sand and plastic printing are used in a wide variety of situations and areas - in business: automotive industry, aviation, dentistry, reverse engineering, metal molds, in art: architects, designers, sculptors, restorers, and for the needs of private clients. 3D printing technology became accessible to everyone and applied every day for unique and exclusive ideas.

Additional services

We provide a full range of additional services that are ensured by experts with the highest level of excellence in their field, implementing the needs of the most demanding customers:

  • Consulting on 3D printing and 3D scanning
  • Creation of computer 3D models according to the given example, photos, drawings or sketches
  • 3D scanning with professional 3D scanners
  • Processing of 3D printed products, surface preparation for painting, simple and artistic painting

3D printing process, materials used and their technical specification

Binder Jetting technology

We print products from quartz sand and PMMA (polymethylmethacrylate) plastic powder. In this technology, the powder is bonded with a special binder to form a solid product.

Materials, their properties, and technical specifications

MaterialPMMA plasticQuartz sand
Layer thickness 80-200 µm; standart 150 µm 200-300 µm; standart 200 µm
Glue distribution resolution up to 600 dpi  up to 200 dpi 
Binder (glue) Polypor B, Polypor C  Furan, Phenolic 
Tensile strength 3,7-4,3 MPa 220-380 N/cm² (bend strength)
Tensile strength when impregnated with epoxy resin 25 MPa -
Print precision 0,3 % 0,2 % 
Evaporation temperature 600°-700°  -
Main areas of application Metal molding models (investment casting); product models, prototypes Forms for metal casting (sand casting); patterns
Benefits  Bright corners and edges; high precision and detail; almost no sediment (<0.3%) Low gas emissions during casting (up to 250 L / h); almost odorless

SLS  technology

By using SLS (Selective Laser Sintering) method we print products made of PA (polyamide) plastic powder. The printing process uses a laser to melt the plastic powder.

Materials, their properties and technical specifications

MaterialPolyamide (PA)
Layer thickness 60-150 µm
Power source used to bind material Laser
Main areas of application Architectural layouts; prototypes; finished products; sophisticated geometry mechanical details
Benefits High accuracy and details; Sharp angles and edges; Strength; Impact resistance

SLA  technology

Using SLA (Stereolithography) 3D printing technology, products are printed from liquid resin. During the printing process, the 3D model layer by layer is created using a photopolymerization process: the light of special parameters forces the chains of molecules to merge, thus creating polymers.

Materials, their properties and technical specifications

MaterialStandart resinEngineering resinJewelery resinDentistry resin
Layer thickness 25-100 µm 25-100 µm   25-100 µm   25-50 µm
Power source used to bind material Ultraviolet Laser Ultraviolet Laser   Ultraviolet Laser   Ultraviolet Laser
Main areas of application Product models, prototypes; finished products Products with particularly good mechanical properties   Molding products - molds   Dentistry products
Benefits  High precision and detail; Transparent products also can be printed High precision and detail; ability to print products with hardness, durability, flexibility, temperature resistance Burns out cleanly without ash or residue, excellent detail and surface fineness Biologically compatible with the human body; can be used to produce precise surgical guides or other devices for medical devices

FDM technology

With Fused Deposition Modeling (FDM) 3D printing technology, we print products from various plastics: ABS, PLA, GLACE, ASA, PETG, HIPS, NYLON, FLEX, WoodFill, PA CF and so on. During the printing process, the product is printed in layers by melting the filament fed to the heated print head.

Materials, their properties and technical specifications

MaterialABSPLAHIPSPET
Layer thickness 50-400 µm 50-400 µm 50-400 µm 50-400 µm
Tensile strength 43-45 MPa 47-66 MPa 19-24 MPa 55-75 MPa
Main areas of application Product models, prototypes; finished products Product models, prototypes; finished products Product models, prototypes; finished products Product models, prototypes; finished products
Benefits   Strength, hardness, durability, surface quality Surface quality, ecology Shock resistance, durability Resistance to friction, chemical effects