The Future of Smile Enhancement

The World’s Thinnest Cosmetic Dental Veneer

3x THINNER

than traditional veneers

Discover custom 3D printed veneers manufactured 3x thinner than traditional veneers offering a less invasive option for consumers and reduced prep time for dentists.

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Why UltraThineer

Enhancing Smiles with Precision and Artistry

Technology

No Prep / No Grinding

UltraThineer veneers are over three times thinner than traditional veneers, measuring under 100µm. This ultra-thin design often eliminates the need for extensive tooth grinding and preparation, providing a more comfortable, less invasive solution—with minimal to no prep in some cases.

Durability and Strength

Using Zirconia ceramic, the UltraThineer is stronger than a traditional porcelain veneer and is more durable to the normal wear and tear that happens over time.

High-Precision Fit

Traditional casting or cutting of glass ceramics typically results in an edge fit of 50-100µm. In contrast, UltraThineer uses Projection Micro Stereolithography (PµSL) 3D printing technology to achieve edge fit precision as fine as 4µm. This precise fit ensures the veneers closely adhere to the tooth surface, minimizing foreign body sensation and preventing saliva and food debris accumulation in gaps. This reduces the risk of secondary caries and stress concentration, enhancing durability and preventing fractures.

Reversible

Due to the minimal prep process, UltraThineer veneers are reversible using an erbium laser, keeping the original tooth structure completely intact.

Press Release

BMF receives FDA 510(k) Clearance for UltraThineer Cosmetic Veneer Material

Boston Micro Fabrication (BMF)

Boston Micro Fabrication (BMF) the leader in micro-precision 3D printers, has developed the UltraThineer™, the world’s thinnest cosmetic dental veneer powered by BMF’s patented projection micro stereolithography (PµSL) technology. PµSL is a 3D printing technique that allows for rapid photopolymerization of layers of liquid polymer using a flash of UV light at micro-scale resolution, achieving a combination of excellence in three key areas: resolution, accuracy and precision.

Founded in 2016, BMF has offices in Boston, Shenzhen, Chongqing and Tokyo with a research and development center in San Diego.

Early Market Reactions

Discover what our collaborators and dentists have to say about the future of the UltraThineer.

The ability to print ceramics at minimal thickness will be revolutionary. Our current processes for producing minimal prep veneers can be labor-intensive when compared to milled, full coverage crowns in zirconia. Conservative reduction of the patient’s enamel should be practiced whenever possible. I’m looking forward to the start of this new technology, allowing intricate, ultra-thin veneers to be printed. BMF’s advancements and innovation will continue to push the boundaries of dentistry and inspire innovation worldwide.

Jessica Love, Capture Dental Arts

The ultra-thin and strong 3D printed zirconia veneer technology can quickly and painlessly strengthen and protect the surface of teeth, prevent cold acid stimulation and wear, and significantly improve appearance. More importantly, compared to conventional ceramic veneer technology, the entire process of tooth reduction is eliminated.

Professor Sun Yuchun, Peking University School of Stomatology