3D Printing Systems

Custom measurement jig assemblies printed for a customer on our FDM systems.

FDM Printing

Our FDM (Fused Deposition Modeling) 3D printing process utilizes high-quality plastic filaments and a hot end extruder, resulting in exceptional detail and precision.

We offer a wide variety of filament materials to choose from, including PLA, ABS, ASA, Nylon, Nylon-CF, Polycarbonate, and PC-CF. Whether you're looking for a lightweight, flexible material or a strong, durable one, we've got you covered.

Our systems are capable of printing everything from basic prototypes to complex engineering-grade end-use components. With our expertise in FDM 3D printing, we can turn your ideas into reality, quickly and affordably..

SLA Resin

Looking for the ultimate 3D printing precision and detail? Look no further than our cutting-edge MSLA (Masked Stereolithography Apparatus) printers. Using the latest in photopolymerization techniques, our MSLA 3D printers can create ultra-fine, highly detailed prints with incredible accuracy and surface finish. Our resin-based AM technology utilizes a range of photopolymer materials, including tough resin and elastomers, to meet a wide range of needs. Whether you're looking for flexibility, durability, or strength, we've got the materials you need to get the job done right. We have experience scoping out chemically resistant resins as well.

With our MSLA 3D printers, we can achieve resolutions as fine as 25 microns, meaning that even the smallest details are captured with stunning clarity. Our printers are capable of handling even the most complex geometries, delivering outstanding precision and accuracy with every print.

But what really sets our MSLA 3D printing technology apart is our commitment to quality. Our experienced engineers and technicians work tirelessly to optimize every step of the process, from design to post-processing, ensuring that every part we produce meets the highest standards of quality and performance.

Metal Binder Jetting

Metal Binder Jetting technology, pioneered by companies like Desktop Metal and ExOne, is an exciting advancement in the world of additive manufacturing. This process involves using a liquid binding agent to fuse metal powder particles together to create a solid, 3D-printed metal object.

The benefits of metal binder jetting are numerous. First, the technology allows for the creation of complex, high-precision metal parts that are difficult or impossible to produce using traditional manufacturing methods. Additionally, binder jetting can produce parts with a high level of density, strength, and durability, making them ideal for a wide range of industrial applications.

Desktop Metal and ExOne offer a range of materials for metal binder jetting, including stainless steel, copper, titanium, and more. This variety of materials allows for even more flexibility in the design and creation of metal parts, making it easier than ever to produce custom, high-quality parts for a variety of applications.

Overall, metal binder jetting is a game-changing technology that has the potential to revolutionize the way we think about metal manufacturing. With its high precision, complex geometries, and wide range of available materials, it's no wonder that more and more industries are turning to binder jetting for their metal manufacturing needs.

Multi Jet Fusion

Multi Jet Fusion technology offers a revolutionary approach to powder-based additive manufacturing, enabling real production capabilities. With the use of polyamide powders, we can manufacture end-use components with incredible precision and unparalleled surface finish.

The process starts with the powder bed, where layers of fine polyamide powders are spread and selectively fused by an array of inkjet printheads. These printheads deposit fusing and detailing agents, allowing for complex geometries to be printed with ease. The result is a strong, isotropic, and functional part that is production-ready right out of the printer.

But that's not all. Multi Jet Fusion technology boasts high volume and throughput, making it an ideal choice for companies looking to scale up their production. And with the ability to print parts with varying properties, including color and transparency, the possibilities are endless.

Let our experienced team help you unlock the potential of Multi Jet Fusion technology for your manufacturing needs.

Selective Laser Sintering

Selective Laser Sintering (SLS) is a revolutionary form of 3D printing that has transformed the world of manufacturing. At its core, SLS involves the precise melting of raw materials into complex, intricate shapes, resulting in final geometries that are both strong and lightweight. With the ability to produce end-use components with material properties comparable to those found in traditional injection molding processes, SLS represents a significant leap forward in the world of additive manufacturing.