Effects of Labial Margin Design on Stress Distribution of a Porcelain‐Fused‐to‐Metal Crown

Purpose This study compared the stress distribution of three porcelain‐fused‐to‐metal labial margins on a central incisor under simulated occlusal force. Materials and Methods The margin designs were rounded‐shoulder, rounded‐shoulder with a bevel, and a chamfer. Results Evaluation of mean equivalent Mises tensile stress did not show any difference at the cement‐dentin and metal‐cement interfaces of the three margins. The mean equivalent Mises tensile stress at the porcelain‐metal interface was found to be significantly higher for rounded‐shoulder when compared with the chamfer. There was no significant difference in the axial stresses along the three interfaces among the three margin designs. Statistically significant differences in radial stresses at some interfaces of the three margin designs were found. Conclusions The change of cement thickness of the chamfer margin is significantly greater than that of either the rounded‐shoulder or the bevelled‐shoulder margin.