Ask What is the hybrid 3D printing technology？

Powered by PµSL and based on BMF’s new hybrid resolution technology, the dual resolution D0210 and D1025 print in either single resolution (2µm or 10µm for D0210; 10µm or 25µm for D1025), or in hybrid mode with both resolutions in the intra-layer or in the inter-layer. With improved built-in automation, this capability enables greater efficiency – saving time, resources and cost. Delivering the same ultra-high resolution, accuracy and precision BMF is known for, the new dual-resolution series will revolutionize the prototyping and production of parts requiring micron-level precision and repeatability

Ask How to combine micro 3D printing technology with PDMS mold-making process?

First, using BMF's micro 3D printing to fabricate mold. The liquid PDMS is poured over the 3D printed mold, allowing it to fully infiltrate micro-scale features, including narrow channels and high aspect ratio structures.The assembly is cured at elevated temperatures (typically 60–80°C), solidifying the PDMS into an elastomeric replica that precisely conforms to the mold geometry.After curing, the PDMS layer is carefully peeled off, preserving fine structural details. The replicated structure can then be bonded—commonly via plasma treatment—to glass or other substrates, forming a sealed microfluidic device ready for use.

Ask What is ceramic 3D printing and how does BMF enable it?

Ceramic 3D printing is an advanced additive manufacturing process that fabricates high-performance ceramic parts with complex geometries. BMF leverages its proprietary Projection Micro Stereolithography (PμSL) technology to print ceramic-filled photopolymers with ultra-high precision, followed by debinding and sintering to achieve dense, fully functional ceramic components. BMF’s ceramic 3D printing technology is widely used across multiple industries:Electronics & semiconductors, Medical & healthcare, Aerospace, Energy & chemical engineering,etc.

Ask What are the key advantages of BMF’s bioprinting technology?

BMF’s micro 3D bioprinting offers Ultra-high precision, enables feature sizes down to a few microns, ideal for replicating complex biological microstructures, capable of producing highly complex geometries, including microchannels and porous scaffolds.BMF’s platform supports a variety of photocurable biomaterials, including Hydrogels, Biocompatible resins, Functional composite materials.