Author:
Rani Panda Smita,Chandra Routra Bharat,Chakrabarty Shanta
Abstract
Abstract
This study investigates the impact of average masticatory loads on dental implants, focusing on titanium dioxide and zirconium dioxide materials due to their corrosion resistance and plaque prevention properties. Utilizing the Finite Element Method, the stresses and deflections in these implant components under an average masticatory load of 100N were evaluated. Locations experiencing the highest loads, and time-dependent stresses and deflections are quantitatively measured to analyze the effect of average masticatory load. The findings provide quantitative insights into how these materials withstand masticatory forces, offering valuable information for dental implant design and durability.