Real-Time Polymerization Kinetics and the Effects of Different Post Curing Protocols on the Elastic Modulus of 3D Printed Dental Resin

For decades, dentistry relied on manual processes to create restorations and appliances—methods that are prone to human error, inconsistency, and lengthy production times. 3D printing of dental resins is a transformative technology that is changing how restorations and prostheses are made.
3D printing can integrate with intraoral scanners and CAD/CAM systems to create end-to-end digital workflows for producing:
• Clear aligners for orthodontic treatment
• Crowns, bridges, and dentures
• Surgical guides that ensure precise implant placement
• Custom trays and splints for improved treatment outcomes
• Educational models that enhance patient understanding and surgical planning
What once required multiple appointments over weeks can now be accomplished in a single visit. However, do these 3D-printed resins match the mechanical properties of traditional materials? This project will examine the physiochemical properties of these 3D-printed resins to provide answers to this question.

Faculty Supervisor:

Richard Price

Student:

Partner:

Universidade Federal do Rio Grande do Sul

Discipline:

Life Sciences

Sector:

Technology; Health and Related Sciences and Technology; New and Digital Media

University:

Dalhousie University

Program:

Globalink Research Award

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