Quantifying Stress Shielding in Dental Implants: A Comparative Finite Element Study of Titanium, CFR-PEEK, and Ceramic Materials
Mario Ceddia, Tea Romasco, Natalia Di Pietro, Alessandro Cipollina, Adriano Piattelli, Luciano Lamberti, Bartolomeo Trentadue

TL;DR
This study compares how different dental implant materials affect bone stress and strain, finding that stiffer materials increase stress shielding while CFR-PEEK offers better load distribution.
Contribution
The study introduces a comparative finite element analysis of stress shielding in dental implants made of titanium, CFR-PEEK, and ceramic materials.
Findings
Y-TZP implants showed the highest peak cortical von Mises stress and strain, indicating greater stress shielding.
CFR-PEEK implants exhibited the lowest stress-shielding factor and provided more homogeneous mechanical stimulus in low-density bone.
Higher stiffness implants increased crestal stress concentration and deepened peri-implant shielding.
Abstract
Background: Stress shielding, which occurs when there is a mismatch between the stiffness of the implant and the bone, can alter load transfer and drive peri-implant bone remodeling, particularly in low-density bone. Methods: We compared the biomechanical responses of one-piece implants made of Ti-6Al-4V, Y-TZP, and CFR-PEEK. We modelled the bone as linearly isotropic in the transverse direction and the implants as linearly isotropic with a fully bonded interface. A static load of 200 N was applied at an inclination of 30° buccal-to-lingual, with the transverse bone bottom faces fully constrained. Results: The peak cortical von Mises stress was highest for Y-TZP (87 MPa), followed by Ti-6Al-4V (57 MPa) and CFR-PEEK (approximately 37 MPa). Peak cortical von Mises strain showed the same relative order of magnitude: 3450 µε, 3103 µε, and 1523 µε, respectively. The stress-shielding factor…
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Taxonomy
TopicsDental Implant Techniques and Outcomes · Bone Tissue Engineering Materials · Titanium Alloys Microstructure and Properties
