FDM, SLS, SLA and SLM — from rapid prototypes to end-use production parts. Precision additive manufacturing in Australia.
We match the right technology to your part — based on material, tolerance, volume and end-use requirements.
The most versatile process for functional prototypes and low-volume production parts. Wide material range, fast turnaround and cost-effective for most applications.
Powder-bed fusion for strong, functional parts without support structures. Ideal for complex geometries and batch production of engineering-grade nylon components.
Resin-based process delivering the highest surface finish and dimensional accuracy. Best for detailed models, patterns, moulds and medical/dental applications.
Direct metal additive manufacturing producing fully dense metal parts. For components requiring the mechanical properties of machined metal with complex internal geometry.
Our CNC machining team delivers precision metal and plastic components that complement your additive workflow — from simple turned parts to complex multi-axis machined assemblies.
Upload your file and get an instant quote — or contact our team to discuss your project.
PLA is a popular biodegradable plastic made from renewable resources like cornstarch. It’s known for its ease of use, making it great for beginners creating prototypes, models, low-stress parts, and art and decorative items.
PETG is a durable and versatile plastic with good impact resistance and a slightly flexible nature, ideal for functional prototypes, mechanical parts, bottles and containers, and jigs and fixtures.
ABS is a common thermoplastic known for its strength, stiffness, and impact resistance, often used to create enclosures, automotive parts, toys, and electronics housings.
TPU is a flexible and elastic material with excellent abrasion and tear resistance, commonly used for phone cases, wearable devices, seals and gaskets, and other flexible parts.
Nylon is a strong and durable material with excellent abrasion and chemical resistance, making it a good choice for gears and bearings, functional prototypes, mechanical parts, and automotive components.
Carbon fiber filaments are typically a composite material consisting of carbon fibers embedded in a base material like PLA or Nylon. This gives them a high strength-to-weight ratio, making them ideal for applications like drones and RC aircraft, automotive parts, sporting goods, and high-performance parts.
SLS is an advanced 3D printing technology that uses a high-powered laser to fuse powdered material, typically nylon, layer by layer. This process creates strong, durable parts with intricate geometries, ideal for functional prototypes, end-use parts, complex assemblies, and applications requiring high heat and chemical resistance. Think aerospace components, medical devices, and automotive parts.
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SLS Materials:
While nylon is the most common material for SLS, we can also print in the following materials:
SLM is a cutting-edge metal 3D printing technology that uses a high-powered laser to completely melt and fuse metal powder, layer by layer. This process produces fully dense, high-strength metal parts with exceptional accuracy and complex geometries. It’s ideal for demanding applications in industries like aerospace, medical, automotive, and tooling, where precision and performance are critical. Think intricate medical implants, lightweight aircraft components, and durable tooling inserts.
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SLM Materials:
We can print in a variety of metals you:
