Introduction: Porous dental implants represent a promising strategy to reduce failure rate by favoring osseointegration or delivering drugs locally. Incorporating porous features weakens the mechanical capacity of an implant, but sufficient fatigue strength must be ensured as regulated in the ISO 14801 standard. Experimental fatigue testing is a costly and time-intensive part of the implant development process that could be accelerated with validated computer simulations. This study aimed at developing, calibrating, and validating a numerical workflow to predict fatigue strength on six porous configurations of a simplified implant geometry. Methods: Mechanical testing was performed on 3D-printed titanium samples to establish a direct link b...
Porous coated Ti-6Al-4V has a fatigue strength that is approximately one-third that of the uncoated ...
It is well known that dental implants have a high success rate but even so, there are a lot of facto...
Objective: This study focuses on the fatigue behavior of titanium dental implants as-received, with ...
Porous titanium scaffolds exhibit elastic properties close to that of bone, and they can promote oss...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Safety and efficacy of additive manufactured porous implants is a growing concern due to several, re...
This article belongs to the Special Issue Titanium in Medical and Dental ApplicationsBackground: Tem...
Background: To evaluate the effect of bone remodelling around a reduced-diameter dental implant on i...
Fatigue is the most common mechanical failure type in dental implants. ISO 14801 standardizes fatigu...
In biomedical implant applications, porous metallic structures are particularly appealing as they en...
This study clarifies the differences between additive manufacturing and traditional manufacturing an...
Metallic porous structures (scaffolds) produced by additive manufacturing represent an important cla...
Purpose The aim of this study was to evaluate fatigue resistance of dental fixtures with two differe...
In this work, the fatigue and cellular performance of novel superficially treated porous titanium de...
This paper presents two multiaxial fatigue life prediction models applied to a commercial dental imp...
Porous coated Ti-6Al-4V has a fatigue strength that is approximately one-third that of the uncoated ...
It is well known that dental implants have a high success rate but even so, there are a lot of facto...
Objective: This study focuses on the fatigue behavior of titanium dental implants as-received, with ...
Porous titanium scaffolds exhibit elastic properties close to that of bone, and they can promote oss...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Safety and efficacy of additive manufactured porous implants is a growing concern due to several, re...
This article belongs to the Special Issue Titanium in Medical and Dental ApplicationsBackground: Tem...
Background: To evaluate the effect of bone remodelling around a reduced-diameter dental implant on i...
Fatigue is the most common mechanical failure type in dental implants. ISO 14801 standardizes fatigu...
In biomedical implant applications, porous metallic structures are particularly appealing as they en...
This study clarifies the differences between additive manufacturing and traditional manufacturing an...
Metallic porous structures (scaffolds) produced by additive manufacturing represent an important cla...
Purpose The aim of this study was to evaluate fatigue resistance of dental fixtures with two differe...
In this work, the fatigue and cellular performance of novel superficially treated porous titanium de...
This paper presents two multiaxial fatigue life prediction models applied to a commercial dental imp...
Porous coated Ti-6Al-4V has a fatigue strength that is approximately one-third that of the uncoated ...
It is well known that dental implants have a high success rate but even so, there are a lot of facto...
Objective: This study focuses on the fatigue behavior of titanium dental implants as-received, with ...