Precision manufacturing for modern engineering
We bridge the gap between digital design and physical reality with advanced additive manufacturing, rigorous quality control, and engineering-first support.
Advanced Manufacturing Technologies
We utilize state-of-the-art 3D printing technologies to deliver high-quality parts tailored to your specific needs.
FDM
Fused Deposition Modeling
The industry standard for functional prototypes and end-use parts. Ideal for mechanical components, jigs, and fixtures.
- Wide material range
- High durability
- Cost-effective
SLA
Stereolithography
High-resolution printing for intricate details and smooth surface finishes. Perfect for jewelry, dental, and fine-scale models.
- Ultra-fine detail
- Smooth finish
- Isotropic properties
SLS
Selective Laser Sintering
Industrial-grade production without the need for supports. Best for complex geometries and batch manufacturing.
- No supports needed
- High strength
- Batch production
Engineering-grade materials
PA12, CF blends, PETG, TPU, and resins tuned for strength, flexibility, or heat resistance.
Tight, repeatable quality
DFM feedback, calibrated machines, and process control built for consistent production runs.
Predictable lead times
Urgent protos to 1–2 week production. Clear checkpoints and tracked shipping.
Material Comparison
Compare technical specifications across our material library.
PLA
Easy to print, biodegradable
Polylactic Acid is the most popular 3D printing material. It is derived from renewable resources like corn starch and is known for its ease of use and high detail.
ABS
Tough and heat resistant
Acrylonitrile Butadiene Styrene is a durable thermoplastic known for its impact resistance and toughness. It is widely used in automotive and industrial applications.
| Property | PLA | ABS | Comparison |
|---|---|---|---|
Tensile Strength MPaResistance to being pulled apart | 53 | 40 | PLA +33% |
Melting Point °CTemperature at which it turns to liquid | 180 | 230 | ABS +22% |
Glass Transition °CTemperature where it becomes brittle | 60 | 105 | ABS +43% |
Elongation %How much it stretches before breaking | 6 | 20 | ABS +70% |
Tensile Modulus GPaStiffness of the material | 3.50 | 2.30 | PLA +52% |
Flexural Strength MPaResistance to bending | 83 | 72 | PLA +15% |
Impact Strength kJ/m²Ability to absorb energy during impact | 3 | 40 | ABS +94% |
Density g/cm³Mass per unit volume | 1.24 | 1.04 | PLA +19% |
Ready to bring your project to life?
Upload your CAD files today and get a detailed DFM review within 24 hours. Our engineers are ready to help you optimize your parts for production.