3D Printing Services
Upload your CAD files, receive FDM 3D printing quote and get your parts into production.
Standard lead time : 2 days ( could be varied depend on the volume of order)
Free pick up or we can ship to your location
Our manufacturing capabilities
With more than 20 FDM 3D printers at our 3D printing farm, we have a very broad range of manufacturing capabilities and support both one-off prototyping and low-volume production. We work with mechanical design engineers to create custom 3D printed parts for application in multiple industries: aerospace, automotive, renewable energy, battery manufacturing, defense, electronics, industrial automation, machinery, medical devices, and robotics.
Step 1
Send your CAD files to sales@onsetengineering.com .
We will send you Design for Manufacturability feedback and a quotation.
Step 2
Place an order and we will start production right away.
Step 3
We ship parts straight to your place or if you are local you can come by to pick up .
FDM 3D printing service
Maximum build size: 500 x 500 x 500 mm (19.68'' x 19.68'' x 19.68'')*
Standard lead time : 4 business days
Dimensional accuracy:± 0.5% with a lower limit on ± 0.5 mm (0.0196'')
Layer height : 100-300 μm
Infill : 20-100%
Stereolithography SLA 3D printing services
Maximum build size :145 × 145 × 175 mm (5.7" x 5.7" x 6.8")
Standard lead time: 4 business days
Dimensional accuracy: ± 0.5% with a lower limit of ± 0.15 mm (± 0.006")
Layer height : 25-100 um
Email us : sales@onsetengineering.com
Call us : 949 315 8685
Visit our Office : 8 Goodyear, STE 115 , Irvine, CA. 92618
Post processing
Onset Engineering offers many services to provide ready to use parts and fixtures
Sanding and Painting
ABS Smoothing
Tapping or Threaded Insert Installation
Assembly and Bonding
Silicone Mold Making
Material Includes:
ABS, Flexible, PLA, PETG, Nylon, Carbon Fiber Filled, ASA, Polycarbonate, Polypropylene, Wood Filled, PVA, Markforged Onyx, MatterHackers NylonX, MatterHackers NylonG, MatterHackers NylonK, 3DXTech 3DXSTAT, Metal/Plastic, Alumide, BASF Ultrafuse 316L, Peopoly Model, Peopoly Nex (HiTemp), Peopoly Tough, Nextdent Cr & Br, Nextdent SG, Nextdent Ortho Clear, Nextdent C&B MFH, Moonray SG, MakerJuice Waxcat, MarkerJuice G+, MarkerJuice SF, Funtodo Snow White, Funtodo Castable, Dreve FotoDent Model, Dreve, FotoDent SG, Spot-A HT
Our Samples
We believe in harnessing the power of cutting-edge technology to turn your innovative ideas into reality. Our advanced 3D printing services offer a wide range of applications for businesses, hobbyists, and individuals alike. From rapid prototyping to custom manufacturing, we're here to help you bring your visions to life.
Our state-of-the-art 3D printers and experienced team ensure precision, quality, and efficiency in every project. With a diverse selection of materials and finishes, we can cater to your specific needs, whether it's for a single piece or a large production run.
Advantages of 3D Printing
Building parts layer-by-layer brings about many benefits that open up design possibilities that were previously unachievable through traditional processes like injection molding, machining, or casting.
Complex, organic geometries with limited impact on part cost
Consolidation of multi-component assembly into a single part
No upfront tooling costs
Fast production for parts within 24 hours
Internal features for advanced heat transfer and flow applications
rubber 3d printing parts
carbon fiber 3d printing parts
silicon molding parts
3D Printing FAQs
How much does 3D printing cost?
3D printing cost per part is dependent on a multitude of factors, including design, material, process, and post print operations. Typically, the post print operations account for most of the part cost, especially if manual labor is involved. At Onset Engineering , Our technology leadership begins with our foundation in in-house automation manufacturing systems, modeling and computation, design with production economics.
How do I choose a 3D printing technology?
When selecting a 3D printing technology, first determine critical design requirements like strength, temperature resistance, water resistance, aesthetics, or durability. This will often help you determine if a metal or plastic 3D printing is needed for your application.
What type of file format is needed for 3D printing?
Though all file types are ultimately converted to STL (.stl) before printing, the recommended file type to upload is STEP (.stp/.step). SOLIDWORKS (.sldprt), and IGES (.igs/.iges) files. Check out further guidance on how to design .stil files for 3D printing.
Ideas from our customers transferred to reality powered by our 3D printers.
How 3D Printing is Turbocharging Robotics Engineering
Rossi Journey to Recovery with 3D Printing
With more than 20 FDM 3D printers at our 3D printing farm, we have a very broad range of manufacturing capabilities and support both one-off prototyping and low-volume production. We work with mechanical design engineers to create custom 3D printed parts for application in multiple industries: aerospace, automotive, renewable energy, battery manufacturing, defense, electronics, industrial automation, machinery, medical devices, and robotics.
We take immense pride in offering our manufacturing services to individuals like Caesar Sierra, a nurse and innovative product developer. Just 8 months ago, Caesar, a recent nursing graduate, approached us with a passion for enhancing products in his free time. His journey began with the concept of creating an M135 mm film holder.
If you're into 3D printing like we are, you know that sometimes the tiniest details can make or break your project. That’s where this handy tool comes in. By using the Skybasic Digital Microscope, we can zoom in on the smallest parts of our prints and see everything super clearly.
This is especially helpful when we're working with small holes that need to match up perfectly with our blueprints. Once we’ve got a magnified view, we can use a precision drill to clean out and adjust the holes to the exact size we need. It’s like giving our prints a mini makeover!
Manufacturing Process Development using SLA Printers and Injection Molding.
Onset Engineering Inc. was founded to transfer products from prototype to production with the minimum cost through applying the latest manufacturing technologies and working closely with inventors/designers during the design/product development process. Our customers are benefited by enhanced understanding the degree of conformance of a design to different manufacturing methods as well as appropriate materials. In this video, we introduce the rapid prototype manufacturing process development in which we use SLA printer to develop rapid prototype for the "Nose Splint", the medical device to guard the nose for patients after nose surgery.