Boston Micro Fabrication (BMF) has announced the launch of the microArch D1025, the industry’s inaugural hybrid micro-precision 3D printer. This new printer series is designed to facilitate additive manufacturing that demands micron-level precision and is particularly suited for applications in healthcare, life sciences, electronics, and photonics.
The microArch D1025 stands out by offering dual resolution capabilities, allowing users to print at either 10µm or 25µm resolution within the same layer or across different layers. This flexibility enables the production of parts with varying complexity and detail requirements in a single process. The printer operates on BMF’s proprietary Projection Micro Stereolithography (PµSL) technology, which enhances the efficiency of the 3D printing process by utilizing a rapid photopolymerization technique. This technique involves the curing of liquid polymer layers using a UV light flash, enabling precise and repeatable outcomes.
John Kawola, CEO-Global of BMF, emphasized the drive towards innovation that led to the development of the microArch D1025. “Our goal has always been to create platforms that enhance high-value applications for 3D printing,” said Kawola. “With growing demand from our customers for higher precision and tighter tolerances, the microArch D1025 represents a significant step forward in meeting these needs by combining the capabilities of our existing 25µm platform with the high-resolution potential of our 10-micron technology.”
The dual-resolution printer not only offers versatility in printing but also includes enhanced automation features. These advancements facilitate an easier transition between different resolution modes, thereby optimizing the user experience while reducing time, resources, and costs associated with manufacturing processes.
For additional information about the microArch D1025 and its capabilities, please visit BMF’s website at bmf3d.com/microarch-d1025.
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