BMF Launches Hybrid Micro-Precision 3D Printer Series

The microArch D1025 dual-resolution 3D printer delivers flexible, high-precision 3D printing of parts that require micron-level precision and repeatability.

The microArch D1025 dual-resolution 3D printer delivers flexible, high-precision 3D printing of parts that require micron-level precision and repeatability.

The dual-resolution microArch D1025 is the first printer in the series, printing in either 10µm or 25µm resolution, or in hybrid mode with both resolutions in the same print layer or in different layers. Image courtesy of BMF.


Boston Micro Fabrication (BMF) is launching hybrid printing solutions for micro-scale and high-resolution applications. The dual-resolution microArch D1025 is the first printer in the series, printing in either 10µm or 25µm resolution, or in hybrid mode with both resolutions in the same print layer or in different layers.

Since BMF launched its first printer in 2016, the company now supports over 2,000 customers across the world as they look to iterate and produce more precise parts. Built upon BMF’s Projection Micro Stereolithography (PµSL) technology, the microArch D1025 enables more efficiency within the 3D printing process, allowing users across healthcare, electronics, life sciences and photonics applications to print two resolutions within a single layer.

Using a technique that allows for rapid photopolymerization of layers of liquid polymer using a flash of UV light at micro-scale resolution, the 25 µm resolution mode can be used for parts in which the features don’t require ultra-high resolution and 10µm mode supports small, complex features to optimize the 3D printing process. Users also have the ability to choose to print a single build in either 25µm or 10µm depending upon the part geometry, providing greater flexibility and efficiency across all applications and industries.

“Our driving motivation for innovation has been to offer new platforms that can help realize high value applications for 3D printing. Increasingly, we have been pushed by our customers to bring our technology to applications where higher precision and tighter tolerances would result in an overall increase in quality and performance, regardless of part size,” says John Kawola, CEO-Global, BMF. “The launch of the microArch D1025 continues our commitment to answer this call, combining the advances of the microArch S350 25µm platform with the high-resolution capability of our 10-micron printer into one powerful, flexible solution for our customers.”

In addition to offering dual platform capabilities, the microArch D1025 delivers enhanced, built-in automation and easy shifting between resolution modes to optimize the user experience while saving time, resources and cost. To learn more about the microArch D1025, visit https://bmf3d.com/microarch-d1025/.

Sources: Press materials received from the company and additional information gleaned from the company’s website.

More Boston Micro Fabrication Coverage

Ultra-high Accuracy, Precision, and Resolution Micro 3D Printed Medical Device Manufacturing
Discover how the use of micro-precision 3D printing is aiding medical device producers to tackle two common issues through this white paper.
BMF Gets FDA OK for Ultra Thin Dental Veneer Material
Zirconia materials now qualified for use in the production of thin cosmetic veneers, company reports.
Precision Manufacturing Insights with Sheila Ziobro of Quartisis
BMF had the opportunity to sit down with Quartisis, a micro-printing and machining company, that specializes in various aspects of the manufacturing process such as design, 3D printing, rapid prototyping, and expedited delivery of products.
Boston Micro Fabrication Secures $24M Series D Funding
The new capital infusion will support development of end-use products across life sciences, dental and electronics industries.
Creating Wireless Modular Robots with High-Precision 3D Printing
The pursuit of advanced robotics is motivated by the necessity for adaptable and configurable systems. Formerly, robots have been encumbered by stiff designs, curbing their suitability in frequently varying conditions. Yet, if robots can be modified and enhanced upon request,...
Minimally Invasive Surgery with 3D Printed Suturing Device
Despite its advantages, minimal invasiveness in surgery is impeded by a lack of specialized instruments suitable for such detailed and delicate tasks. As a result, patients cannot take full advantage of the potential reduced recovery times, improved outcomes, and lower...
Boston Micro Fabrication Company Profile

Share This Article

Subscribe to our FREE magazine, FREE email newsletters or both!

Join over 90,000 engineering professionals who get fresh engineering news as soon as it is published.


About the Author

DE Editors's avatar
DE Editors

DE’s editors contribute news and new product announcements to Digital Engineering.
Press releases may be sent to them via [email protected].

Follow DE
#28883