Formlabs introduces the next generation in SLS 3D printing: Fuse 1+ 30W for superior speed and performance materials

Upgrades to the system include a new, more powerful laser and higher scanning speed, improved powder handling, and optional inert nitrogen environment. Fuse 1+ 30W users can increase their throughput, unlock new, high-performance materials, and deliver parts faster than ever.

Whether printing a single prototype, or running the printer non-stop for end-use production, speed is a top priority for every industry. To reduce overall print time, they started by upgrading the core engine of the printer—the Fuse 1+ 30W has a new, more powerful laser, as well as an updated laser scanning system. These two main updates ensure that interlayer printing is happening as rapidly and efficiently as possible. 

Users can now design multiple design versions, print them all on the Fuse 1+ 30W utilizing the upgraded packing algorithm, and have them ready to be tested the next day. In today’s market, products are highly specialized, and small components are often the entire focus of a designer or design team. Without other parts or projects to work on, time spent in the printer, or waiting multiple days for parts to arrive from a service provider, meant designers had to wait around before they were able to move the iterative process forward. 

Now with the Fuse 1+ 30W’s higher print speeds, this ‘down time’ can happen overnight, helping designers improve the efficiency of their process. More iterations means more time for functional testing and feedback, resulting in better products and a faster ROI.

Maximum production throughput

After several years of raw materials shortages, rising contractor costs, and factory shut-downs, manufacturers are searching for ways to take control of their supply chains. Recent materials innovations have made 3D printed end-use parts not only possible, but ideal for stop-gap options, validation stages, and customization applications.

Small and medium manufacturers can afford to bring SLS in house with the Fuse 1+ 30W printer in-house and reduce their reliance on expensive external contractors, as well as avoid delays and variability in the production supply chain. Large manufacturers that might already utilize SLS 3D printing can decentralize their 3D printing operation without duplicating the cost of their traditional SLS systems, giving more engineers, designers, and technicians access to industrial quality SLS. With that broader access, new applications in replacement parts, fixtures, jigs, tooling, and more are made possible across the company.

Unlock superior mechanical properties and zero waste printing

3D printing for production wouldn’t be possible without high performance materials, and the Fuse 1+ 30W integrates two new features that unlock more advanced powder possibilities. 

A new optional nitrogen supply feature creates an inert gas environment during the print process, eliminating unwanted oxygen from the sintering environment. When printed in this inert environment, parts exhibit less brittleness and better ductility, enhancing their suitability as end-use components, especially in rugged environments such as automotive or aerospace. Compatible nitrogen generators are widely available for purchase, and recommended models can be found by speaking with a member of our sales team. 

The controlled atmosphere also enables a more efficient sintering process for Nylon 11 Powder and Nylon 11 CF Powder by better preserving unsintered powder from oxidation, allowing users to reuse more of it in the next printing cycle. This leads to a higher powder recyclability, and when combined with an optimal packing density, can create a zero-waste printing workflow. Without the inert gas atmosphere, Nylon 11 and Nylon 11 CF Powders have a 50% refresh rate, meaning 50% recycled and 50% fresh powder must be used to create each new cartridge. In a nitrogen environment, this improves to 30% with both materials.

Upgraded mixing enables new materials

Composite materials like Nylon 11 CF Powder owe their heightened strength and durability to the combination of carbon fibers throughout the powder, reinforcing the nylon’s material properties. Advanced materials require a more sophisticated powder handling system, one that can maintain the powder flow integrity during the dosing process.

The Fuse 1+ 30W engineering team designed an elegant solution to facilitate these new materials. The new agitator within the powder hopper creates a consistent, smooth delivery of material into the build chamber, enabling Nylon 11 CF Powder now, and opening up possibilities for future high performance materials in the future. Broader, end-use applications in aerospace, automotive, medical, and consumer goods industries will be made possible by the Fuse 1+ 30W printer’s improved powder management capacity.