In view of its high mechanical performance, outstanding aesthetic qualities, and biological
stability, zirconia has been widely used in the fields of dentistry. Due to its potential to …

This study aimed to assess the mechanical and biocompatibility properties of dental resin
reinforced with different nanoparticle additives. Temporary crown specimens were 3D …

Background: The biocompatibility of 3D-printed dental resins has become a critical concern
in modern dentistry due to the increasing utilization of additive manufacturing (AM) …

Objectives To evaluate the physical and mechanical properties of three-dimensional (3D)
printed denture base resin incorporating TiO2 nanoparticles (NPs), subjected to a physical …

Poly (methyl methacrylate)(PMMA) is a commonly used material, as it is biocompatible and
relatively cheap. However, its mechanical properties and weak antibiofilm activity are major …

Three-dimensionally (3D)-printed fabricated denture bases have shown inferior strength to
conventional and subtractively fabricated ones. Several factors could significantly improve …

Dental 3D-printing technologies, including stereolithography (SLA), polyjet (triple-jetting
technology), and fusion deposition modeling, have revolutionized the field of orthodontic …

Objectives With advanced technology for complete denture fabrication, there is a lack of
knowledge on the mechanical behavior of three-dimensional (3D) printed teeth despite the …

Introduction In this study, the effects of adding titanium dioxide nanotubes (TiO2) to 3D‐
printed denture base resin on the mechanical and physical properties of denture bases were …

The development of 3D-printed crown resin materials with improved mechanical and
physical properties is an area of growing interest in dentistry. This study aimed to develop a …