1. Dental Restoration Materials
Composite resin fillings, denture bases, dental adhesives, fissure sealants, etc.
As a key monomer in resin matrices, it delivers superior mechanical strength, wear resistance, and flexibility. It exhibits excellent compatibility with fillers and relatively low curing shrinkage.

2. 3D Printing
Photopolymer resins for light-curing (SLA/DLP) 3D printing, used to create precision models, dental guides, etc.
Their low viscosity enhances resin flow and printing accuracy, yielding high-strength cured products.

3. High-Performance Coatings & Adhesives
UV-curable coatings, inks, adhesives, etc.
Delivers strong adhesion, yellowing resistance, and chemical resistance with rapid curing, ideal for high-performance applications.

4. Biomedical Materials
Orthopedic repair materials, drug-release carriers, etc. Excellent biocompatibility allows functional groups (e.g., antimicrobial quaternary ammonium salts) to be introduced via molecular design, imparting specialized properties to the material.

💡 Detailed Explanation & Market Overview

Core Position in Dentistry:
In dental composite resins, UDMA is often blended with other monomers like Bis-GMA and TEGDMA to balance viscosity, cure degree, and final performance. Studies demonstrate that UDMA-based materials exhibit superior wear resistance and other properties. Recent research focuses on developing next-generation smart materials with anti-secondary caries functionality by modifying UDMA (e.g., introducing antibacterial quaternary ammonium groups).

Other Application Expansions:
Due to its tunable molecular structure and excellent film-forming properties, UDMA is also being researched for hydrophobic protective coatings, such as those for enamel or metal surfaces.