Hyper PLA-CF offers high strength and exceptional layer adhesion, boasting superior physical and mechanical properties.
It strikes the perfect balance of strength, adhesion, and speed, with 30% higher mechanical properties than standard PLA in terms of flexural strength, flexural modulus, and impact strength.
Functional prototypes, jigs & fixtures and very detailed parts
Engineered for strength and precision, PC Carbon Fiber combines durable polycarbonate with 20% high-modulus carbon fiber for enhanced rigidity and heat resistance.
This material is designed for high-performance applications where structural integrity, minimal deformation, and excellent surface finish are critical—making it a top choice for automotive, aerospace, and tooling components.
Functional prototypes, jigs & fixtures and very detailed parts
Nylon PA12-CF is designed for demanding applications where strength and precision matter. Its carbon fiber reinforcement adds stiffness while keeping parts lightweight.
Perfect for aerospace, automotive, and tooling, it offers excellent dimensional stability and minimal warping—ideal for durable, high-performance 3D printed parts.
Functional prototypes, jigs & fixtures and very detailed parts
Polypropylene (PP) also stands out for its excellent moisture resistance and ability to produce watertight prints, making it ideal for fluid-handling components, storage containers, and outdoor applications.
Its combination of strength, flexibility, and chemical durability ensures reliable performance in both functional prototyping and end-use production.
Functional prototypes, jigs & fixtures and very detailed parts
TPU 85A boasts exceptional attributes that set it apart. Its remarkable resistance to hydrolysis ensures longevity, while its flexibility at low temperatures provides adaptability in diverse conditions.
Functional prototypes, jigs & fixtures and very detailed parts
PC-ABS is a strong, heat-resistant filament ideal for functional parts. It offers excellent impact strength, prints complex shapes easily, and supports post-processing. Supplied on a reusable spool and vacuum-sealed for quality.
Functional prototypes, jigs & fixtures and very detailed parts
TPU-95A is a flexible, durable 3D printing filament with rubber-like elasticity and strong impact absorption. Ideal for parts needing both flexibility and strength, it excels in demanding conditions with excellent abrasion resistance and elongation.
Functional prototypes, jigs & fixtures and very detailed parts
SLM is a metal 3D printing process that uses a high-powered laser to fully melt metal powder, producing complex and precise parts with strong structural integrity.
Stainless Steel 316L is ideal for SLM thanks to its excellent corrosion resistance, strength, and thermal stability. Its low carbon content improves weldability and minimizes deformation.
316L parts are well-suited for demanding industries like aerospace, medical, marine, and chemical processing, where durability and reliability are essential.
Selective Laser Melting (SLM)is an advanced additive manufacturing technology that uses a high-powered laser to fully melt metallic powder into solid, high-density parts.
By building components layer-by-layer directly from a 3D CAD file, SLM achieves a level of precision and structural integrity that rivals or exceeds traditional forged metals.
Lead Time 2 weeks, High-load durability through superior strength and hardness.Lead Time 2 weeks, Low-cost, good quality
Titanium TC4 (Ti6Al4V)is a high-performance aerospace-grade alloy renowned for its exceptionalstrength-to-weight ratioand superior corrosion resistance.
UtilizingSelective Laser Melting (SLM), we produce high-density components that match the ruggedness of steel at nearly half the weight, making it the premier choice for mission-critical parts in theAerospace, Medical, and Automotivesectors.
Lead Time 2 weeks, High specific strength, low thermal conductivity, good corrosion resistance
Tool Steelis a high-grade industrial metal engineered for extreme hardness and "red hardness," allowing it to maintain its structural integrity even under intense thermal stress.
By utilizingSelective Laser Melting (SLM), we can integrate internalconformal cooling channelsthat are impossible to achieve through traditional machining, significantly increasing the lifespan of the tool.
Lead Time 2 weeks, thermal fatigue resistance; high toughness, high ductility and wear resistance.
Copper is structurally stronger, hard, and has higher elongation in contrast to aluminum alloys as well as metallurgical and electrical conductivity properties
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![Nylon 12/PA [SLS]](https://cdn.prod.website-files.com/5e1b724edb4d525389fc347f/6623c1e1ca3e7be3c3df94c1_Nylon%2012%20%5BSLS%5D.jpg)
