Effect of enzymatic degradation and hydrolysis on 3D-printed resin-based composite material for temporary dental crowns and bridges

Abstract: Additive manufacturing of dental prostheses e.g. composite materials is continuously finding broader application in dentistry. In the oral environment, the materials are subjected to hydrolysis and accelerated hydrolysis by enzymes. With the aim to compare an additively manufactured composite with a self-curing and a CAD/CAM material of the same composition, the effect of enzymatic degradation and hydrolysis on the materials were investigated. The experimental composites consisted of 50 wt. % inorganic filler … Show more

“…The triethylene glycol dimethacrylate (TEGDMA) is an ethylene glycol dimethacrylate monomer wellregarded for its low volatility, high chemical stability, and minimal toxicity. It can be utilized either independently or in conjunction with other monomers as a precursor for 3D printing [54,55] . Nonetheless, pure TEGDMA is relatively expensive, and its cured products tend to exhibit brittleness.…”

Mechanically Enhanced 3D Printable Photocurable Resin Composed of Epoxy Waste Cooking Oil and Triethylene Glycol Dimethacrylate

“…The triethylene glycol dimethacrylate (TEGDMA) is an ethylene glycol dimethacrylate monomer wellregarded for its low volatility, high chemical stability, and minimal toxicity. It can be utilized either independently or in conjunction with other monomers as a precursor for 3D printing [54,55] . Nonetheless, pure TEGDMA is relatively expensive, and its cured products tend to exhibit brittleness.…”

Mechanically Enhanced 3D Printable Photocurable Resin Composed of Epoxy Waste Cooking Oil and Triethylene Glycol Dimethacrylate

Letter to the Editor regarding, “Digital workflow for low-cost 3D-printed custom healing abutment based on emergence profile CBCT segmentation”

Response to Letter to the Editor regarding, “Digital workflow for low-cost 3D-printed custom healing abutment based on emergence profile CBCT segmentation”