Plastic/Resin 3D printing service
e provide fast, high-precision plastic and resin 3D printing services designed for research laboratories, product development teams, engineering prototypes, optical housings, microfluidic devices, and custom scientific hardware.
Using industry-grade FDM and SLA/DLP resin printers, we produce detailed and dimensionally accurate parts with smooth surfaces and complex geometries. Our engineers support both prototype and small-batch production, offering CAD assistance, structural optimization, and optional finishing services.
Whether you need functional plastic components, precision resin prototypes, casings, fixtures, mounts, or concept models, our printing service delivers reliable quality and fast turnaround at an affordable cost.
Technical Spec Sheet Table
| Category | Specifications / Options |
|---|---|
| Technologies | FDM, SLA, DLP high-resolution printing |
| Plastic Materials (FDM) | PLA, ABS, PETG, TPU (flexible), Nylon, Carbon-fiber reinforced |
| Resin Materials (SLA/DLP) | Standard resin, tough resin, high-temp resin, clear resin, engineering resin |
| Layer Resolution | 25–300 µm (resin), 100–300 µm (FDM) |
| Dimensional Accuracy | ±0.1–0.3 mm |
| Minimum Feature Size | 0.2–0.5 mm |
| Max Build Size | Plastic/FDM: up to 300×300×400 mm; Resin/SLA: up to 200×130×250 mm |
| Surface Finish | Smooth (resin), textured or matte (FDM); optional post-polishing |
| Post-Processing | Sanding, polishing, coating, drilling, tapping, painting |
| Applications | Prototypes, casings, mounts, microfluidics, optical housings, conceptual models |
Frequently Asked Questions (Plastic / Resin 3D Printing Service)
1. What materials do you offer for plastic and resin 3D printing?
We support a wide range of engineering and high-resolution materials:
• PLA / ABS / PETG (general prototyping)
• Nylon / PA12 (strong & wear-resistant)
• TPU / TPE (flexible rubber-like materials)
• Standard resins (high-detail models)
• Tough / engineering resins
• High-temperature resins
• Clear optical-grade resins (for lenses or microfluidics)
If you need chemical resistance, flexibility, transparency, or high strength — we can recommend the best material.
2. What printing technologies do you use?
We use multiple 3D printing technologies depending on resolution and strength needs:
• FDM (Fused Deposition Modeling) — strong & economical
• SLA (Stereolithography) — ultra-smooth, high-accuracy
• DLP / MSLA — micro-detail resolution for small features
SLA/DLP are ideal for microfluidics, optical components, and precision engineering prototypes.
3. What is the maximum build size?
Build volume varies by machine type:
• FDM: up to 300 × 300 × 400 mm
• SLA/DLP: up to 200 × 125 × 210 mm
Larger parts can be printed in segments and assembled.
4. What tolerances and surface finish can I expect?
Typical tolerances:
• FDM: ±0.2–0.35 mm
• SLA/DLP: ±0.05–0.15 mm
SLA/DLP resolution can reach:
• Layer height: 25–50 µm
• XY resolution: 35–50 µm
Polishing, sanding, and optical finishing are available upon request.
5. Do you support transparent or optical-grade printing?
Yes — we offer high-clarity UV resin suitable for:
• Optical housings
• Light-guiding structures
• Microfluidic chips
• Transparent covers or prototype lenses
Optional post-polishing can achieve near-glass clarity.
6. What file formats do you accept?
We accept the following formats:
• STL
• STEP
• IGES
• OBJ
No 3D file? You can send a drawing or sketch — we can generate the 3D model for you.
7. Do you offer post-processing and finishing?
Yes — available options include:
• Sanding & polishing
• Painting or coating
• Thread tapping
• Assembly & bonding
• Vapor smoothing (for ABS)
Ideal for product prototypes, functional testing, and display-grade models.
8. What is the typical lead time?
Lead times vary with size and material:
• Simple parts: 1–3 days
• High-detail or large SLA prints: 3–7 days
Rush orders may be available.
9. Do you support small batch production?
Yes — we support:
• Single prototypes
• Small-batch production (5–500 pcs)
• Manufacturing of jigs, fixtures, housings, and enclosures
Resin printing is ideal for rapid iteration and early-stage product design.
10. What information should I provide for a quote?
Please include:
• 3D model file (STL/STEP preferred)
• Material selection or performance requirement
• Tolerance or resolution needs
• Quantity
• Any finishing or polishing requirements
Our engineering team will evaluate your model and respond within 24 hours.