3D Printing Service
3D printing is a manufacturing process in which material is laid down layer by layer to form a three-dimensional object. Additive technologies enable the ability to fabricate geometries that were previously not manufacturable. More and more used today to make proofs of concept, prototypes or end-products, With state-of-the-art machinery capable of producing both metal and plastic parts, Eco Industrial is your additive manufacturing partner. With over 10 years of professional experience, we are sure available offer you the exceptional parts at competitive price, simply tell us what you need and we would manage the whole process for you.
1000+ 3D Printing Parts Delivered To Global Leading Companies
Eco Rapid can use different 3D printing technologies depending on the requirements based on you design. With 3D printing we can create prototypes and concept models of your design quickly, so your design can be evaluated efficiently. By utilizing different additive manufacturing (3D Printing) techniques we can provide you with high quality and durable parts as fast as 1 day.
Wide range of material finishing options
Geometries can be built more easily, adding complexity without additional cost
On-demand rapid prototyping full-scale production
3D printing can achieve precise parts feature details
3D Printing Manufacturing Technologies
Since there are different strength, aesthetic and other variables required for different parts, we utilize the following additive manufacturing technologies (SLA, SLS, FDM, DMLS, PloyJet Technologies)
SLA an additive manufacturing process that belongs to the Vat Photopolymerization family in SLA, an object is created by selectively curing a polymer resin layer-by layer using an ultraviolet (UV) laser beam. The materials used in SLA are photosensitive thermoset polymers that come in a liquid form. SLA has the highest tolerance of commercially available 3D printing technologies. Compared to machined accuracy, SLA 3D printing tolerance is somewhere between standard machining and fine machining. SLA parts can be finished to a very high standard using various post processing methods, such as sanding and polishing, spray coating and finishing with a mineral oil.
SLS (Selective Laser Sintering) is a plastic 3D printing method. It creates your parts layer by layer sintering fine polymer powder and fusing them together locally. Polyamide needs to be sintered at a temperature at 160℃ to 220℃, which means shorter cooling time and that speeds up the production process. SLS functional parts are used for drones, robotics, special machinery, jewelry and watches, lo T devices, sport equipment, foot wear, orthopedic technology, education or medical devices. Selective laser sintering (SLS) is a good technology to create architectural models and detailed concept models at a fair cost. SLS can produce functional parts from a large range of engineering plastics, most commonly Nylon (PA12). SLS parts exhibit good mechanical properties and isotropic behavior. For components with special requirements, additive-filled PA powders are available
DMLS (Direct Metal Laser Sintering) is a metal 3D printing technology. It works just like SLM, it creates parts additively by sintering fine metal powder particles, to fuse them together locally. The only difference is the sintering temperature. DMLS doesn’t fully melt the powder, the main consequence of that is shorter cooling time needed after the 3D printing process is completed. The properties of your object will be similar to printed with Selective Laser Melting (SLM), but DMLS will provide you with a higher level of details as the layer thickness tolerance is 3 times smaller than with SLM.
FDM or Fused Filament Fabrication (FFF), is an additive manufacturing process that belongs to the material extrusion family. In FDM, an object is built by selectively depositing melted material in a pre-determined path layer by layer. The materials used are thermoplastic polymers and come in a filament form. Fused Deposition Modeling (FDM) is a 3D printing technology widely known for its speed, accuracy, and competitive cost. An FDM machine precisely extrudes melted plastic filament to create a part. FDM parts can be made in as fast as one day
PolyJet is a 3D printing technology using resins to create your parts. PolyJet 3D Printing works similarly to inkjet printing, but instead of jetting drops of ink onto paper, the 3D printer jets layers of curable liquid photopolymer onto a build tray. The process of fine layer polymerization is repeated until object is finished. Your parts 3D printed with the PolyJet 3D printing process can be used for both prototyping and functional parts. Out of all of our 3D printing technologies, PolyJet has the smallest standard layer thickness tolerance which means you can create very detailed parts. With this 3D technology, the objects will have a smooth surface and a high level of details which makes the PolyJet technology highly beneficial for those who need to produce parts with dimensional accuracy. PolyJet is used by automotive, electronics, consumer goods, medical development, and clothing manufacturers, as well as for creating 3D models for use in movies
What Are The Materials Used In 3D Printing?
3D printing builds parts based on the same main principle, a digital model is turned into a physical three-dimensional object by adding material a layer at a time. 3D printing is one of the fastest and most cost-effective methods available for the iterative design, prototyping and production of custom parts with Eco Rapid. Our material engineers are expert in their fields and according to your specific needs, let us suggest suitable materials for both additive manufacturing and traditional techniques.
PhotoPolymers
- ABS, PC Polyamide (Nylon), Nylon
- 12Epoxy resin, Wax, Photopolymer Resins
Metals
- Aluminum alloys, Cobalt based alloys, Tool steels
- Nickel based alloys, Stainless steels, Titanium Alloys
- Precious metals (gold, silver), Copper alloys
Ceramics
- Porcelain, Silicone-carbide, Silica/glass
Advantages of 3D Printing
3D Printing will provide your project with the freedom of a lighter, less expensive and strong product while still meeting the demands of an intricate design.
From a practical standpoint, 3D printing can save money and material versus subtractive techniques, as very little raw material is wasted.
Some of the additional advantages of additive manufacturing include:
- Create complex geometries, Strength, Efficiency, Rapid turnaround
- Eliminates intermediary steps, Economical, Applications numerous industries
- Prototypes, On-demand production, Mass customisation
- End user parts, Test products, Low volume production
Application Of 3D Printing
3D printing encompasses many forms of technologies and materials as 3D printing is being used in almost all industries you could think of. It’s important to see it as a cluster of diverse industries with a myriad of different applications.
- Consumer Products (Eyewear, Footwear, Design, Furniture, Jewelry, Tripods, Gift and Novelty Items, Toys Etc).
- Industrial Products (Manufacturing Tools, Prototypes, Functional End-Use Parts.
- Education, Movie Props, Architectural Scale Models & Maquettes.
- Reconstructing Fossils, Replicating Ancient Artefacts.
- Dental Products,Prosthetics,Healthcare, Reconstructing.
- Evidence In Forensic Pathology,Molded Fiber.
- Aerospace, Transportation,Robotic.
Find More Other Interested Manufacturing Process
3-axis, 4-axis, 5-axis milling
prototype & production
SLA, SLS, FDM, DMLS,
PloyJet technologies
Laser cutting, Bending,
Post processing
Production quality parts without the tooling inverstment
Custom low volume plastic & aluminum extrusion for all of projects
T1 samples as fast as 10 days without minimun order require
