Delivering Industry-Leading Rapid Prototyping Solutions
At Pexon, we are committed to delivering the best rapid prototyping solutions available in the market. Leveraging cutting-edge 3D printing technology, we can create highly accurate prototypes in as little as 24 hours. Our 3D printed models are ideal for quickly testing designs, validating functionality, or serving as visual aids to effectively showcase your concept.
How 3D Printing Works
3D printing employs a layer-by-layer process to transform 3D CAD designs into physical prototypes. A variety of materials can be used depending on your project’s specific needs. Through different 3D printing methods, layers are built and solidified until the prototype is fully realized.
SLA 3D Printing
SLA (Stereolithography) 3D printing transforms liquid materials from 3D CAD data into precise, highly detailed prototypes. This process uses ultraviolet light to solidify the material, layer by layer, until the final product is complete. After printing, the prototypes are cleaned and undergo a final curing stage to ensure quality and durability. SLA printing is well-suited for producing intricate, high-resolution prototypes, making it perfect for small-scale, detailed designs.
SLA Printing Process
| 1 | The design is uploaded and converted into fine digital layers from the 3D CAD file. |
| 2 | Liquid resin is layered into a vat, one layer at a time. |
| 3 | Ultraviolet lasers trace and solidify each new layer. |
| 4 | This process continues until the entire prototype is printed. |
| 5 | Excess resin is removed, and the model is carefully cleaned. |
| 6 | The prototype is then cured for a final finish, completing the process. |
Benefits of SLA 3D Printing
- A wide range of material options, from translucent to opaque.
- Superior resolution, with precise details and accuracy.
- Ideal for intricate designs and small prototypes.
- Multiple finishing options available to suit your project’s specific needs.
SLS 3D Printing
Selective Laser Sintering (SLS) is an advanced 3D printing technology used for producing fully-functional prototypes. This rapid prototyping process utilizes a powerful laser to fuse powdered materials layer by layer, directly from a 3D CAD file. The CAD design is digitally sliced into equal layers, which are precisely sintered together, resulting in strong and durable prototypes with complex geometries.
SLS 3D Printing Process
| 1 | The 3D CAD design is uploaded and sliced into equal digital layers |
| 2 | A thin layer of powdered material is spread, and lasers fuse it to form the base layer. |
| 3 | Additional material is spread, and the laser fuses each subsequent layer until the design is fully built. |
| 4 | Once printing is complete, the model is cleaned and prepared for post-processing or delivery. |
| 5 | Optional finishing services can be applied to finalize the prototype. |
Advantages of SLS 3D Printing
- Fully functional prototypes produced within 24-48 hours.
- Parts can be designed to snap, fit, or attach to each other.
- Supports complex features like fluid channels, hinges, and other mechanical elements.
Get Instant Quote
- Please attach your 3D drawings, preferably in STEP and IGS formats.
- If you have multiple files, compress them into a ZIP or RAR file.
- Supported file formats: doc | excel | png | jpeg | csv | pdf
- Alternatively, you can email your RFQ to us directly at projects@pexon.co