INTRODUCTION: A finite element model of two nickel-titanium (Ni-Ti) rotary endodontic instruments (ProTaper and SystemGT; Dentsply-Maillefer, Ballaigues, Switzerland) was developed to investigate the mechanical behavior of these devices and to identify the benefits/limitations of different geometries during instrumentation in various root canals. METHODS: Instrument shape, curved root canal geometry, and Ni-Ti alloy pseudo-elastic behavior were investigated in this study using computational techniques. Two different operating conditions were simulated: (1) the file insertion-removal cycle which resembles the standard working condition and (2) the file subjected to a torque in the counter-clockwise direction, which mimics the auto-reverse mo...
The effectiveness of endodontic file preparation depends, among others, on the material, geometric s...
P>Aim The purpose of this study was to establish a general mathematical model for describing t...
The aim of the present investigation was to calculate the stress distribution generated in the root ...
INTRODUCTION: A finite element model of two nickel-titanium (Ni-Ti) rotary endodontic instruments (P...
Introduction A finite element model of two nickel-titanium (Ni-Ti) rotary endodontic instruments (Pr...
AIM: To develop an accurate finite element (FE) model for studying rotary endodontic instruments and...
Ni-Ti rotary endodontic instruments (files) are used in dentistry during the endodontic treatment to...
During root canal instrumentation, nickel-titanium rotary instruments are subjected to continual str...
This study investigated the influence of cross-section profile on the mechanical behaviors of six co...
The study was aimed to compare the stress distribution during simulated root canal shaping and to es...
WOSInternational audienceThe objectives of this study were to compare numerically the bending and to...
International audienceAim To build a mathematical model describing the mechanical behavior of NiTi r...
evaluate the mechanical behavior of reciprocating endodontic files, comparing nickeltitanium (NiTi) ...
The aim of the present study was to establish a mathematical model to characterize the flexural beha...
Aim: Aim of this study is to evaluate the lateral forces on the instrument in the apical 3rd of curv...
The effectiveness of endodontic file preparation depends, among others, on the material, geometric s...
P>Aim The purpose of this study was to establish a general mathematical model for describing t...
The aim of the present investigation was to calculate the stress distribution generated in the root ...
INTRODUCTION: A finite element model of two nickel-titanium (Ni-Ti) rotary endodontic instruments (P...
Introduction A finite element model of two nickel-titanium (Ni-Ti) rotary endodontic instruments (Pr...
AIM: To develop an accurate finite element (FE) model for studying rotary endodontic instruments and...
Ni-Ti rotary endodontic instruments (files) are used in dentistry during the endodontic treatment to...
During root canal instrumentation, nickel-titanium rotary instruments are subjected to continual str...
This study investigated the influence of cross-section profile on the mechanical behaviors of six co...
The study was aimed to compare the stress distribution during simulated root canal shaping and to es...
WOSInternational audienceThe objectives of this study were to compare numerically the bending and to...
International audienceAim To build a mathematical model describing the mechanical behavior of NiTi r...
evaluate the mechanical behavior of reciprocating endodontic files, comparing nickeltitanium (NiTi) ...
The aim of the present study was to establish a mathematical model to characterize the flexural beha...
Aim: Aim of this study is to evaluate the lateral forces on the instrument in the apical 3rd of curv...
The effectiveness of endodontic file preparation depends, among others, on the material, geometric s...
P>Aim The purpose of this study was to establish a general mathematical model for describing t...
The aim of the present investigation was to calculate the stress distribution generated in the root ...