Effect of bone block removal on patellar stresses: A finite element analysis

## Abstract The accuracy of the computed stress distribution near the free surface of vertical slopes was evaluated in this study as a function of the element size, including aspect ratio. To accomplish this objective, a parametric study was carried out comparing stresses computed using the finite

## Abstract The aim of this study was to evaluate the influence of the straight alignment versus distal offset placement of an implant‐supported prosthesis (using implants with different diameters: 4 mm, 4.5 mm, and 5 mm) on bone stress distribution. 3D finite element models of a straight configura

The traditional Finite Element Method, when applied to the micro-and nanoscale, lacks of contemplating stress on surfaces. In macroscopic mechanics, stress is a prerogative of bulks as displayed by the standard form of Principle of Virtual Work (PVW). On the other hand, the progressive increase of s

## Abstract The aim of this numerical analysis was to evaluate the amount and localization of stress that occurs with various materials used in implant‐crown design under functional forces. Computer‐aided design techniques and a finite‐element stress analysis method were used for evaluation. A 4.1