Communications Internationales

2019
Mebrek, Hamama, Hacene Ameddah, and Salah Mansouri. 2019. “The effect of the cutting conditions parameters on the temperature by the Taguchi optimization method”. The 7eme International Conference on Advances in Mechanical Engineering and Mechanics ICAMEM 2019, December 16-18.
Ameddah, Hacene, Farida Bettine, and Hammoudi Mazouz. 2019. “Electromechanical Analysis (MEMS) of a Capacitive Pressure Sensor of a Neuromate Robot Probe”. The First International Conference on Innovation in Biomechanics and Biomaterials (ICIBAB 2019), April 10-11,.
Cherifa, Azoui, and Benmohammed Brahim. 2019. “Etude de l’influence de quelques paramètres sur la stabilité du fraisage des parois minces avec tracé des lobes de stabilité”. The international conference on innovative materials, manufacturing, and advanced technologies (IMMAT’2019), Monastir 17-19 Octobre 2019, Tunisie. Publisher's Version
Abderraouf, Benali, and Benmohammed Brahim. 2019. “Numerical simulation of chip formation in case of orthogonal machining process”. The international conference on innovative materials, manufacturing, and advanced technologies (IMMAT’2019), Monastir 17-19 Octobre, Tunisie. Publisher's Version
2018
Ameddah, Hacene, and Hammoudi Mazouz. 2018. “Biomedical rapid prototyping of free_form surfaces By planar contours method”. 6th International Conference on INTEGRITY-RELIABILITY-FAILURE, 22-26 July.
Ameddah, Hacene, and Hammoudi Mazouz. 2018. “IN VIVO CHARACTERIZATION OF MICRO ARCHITECTURE OF A HUMAN VERTEBRA BY MICRO-IMAGING”. 6th International Conference Integrity-Reliability-Failure 22-26 July. Publisher's Version Abstract
Bone, like any other material, is subject to mechanical fatigue when subjected to repetitive cyclic loading. Cyclic loading in vivo occurs either in workplaces exposed to mechanical vibration or during handling operations or during leisure and sports activities. As an example, the continuous exposure of the human body to intense global vibration can be, in the long run, cause problems of lumbar lesions due to dynamic stresses (mainly compression) in the spine. Bone and microcracks in cancellous bone. Fatigue rupture of vertebral bone is clinically and biologically important. From a clinical point of view, permanent damage and deformity, under cyclic loading, can probably weaken the vertebral body by inducing the migration of joint replacements. The mechanism of fatigue damage in cortical and trabecular bone can cause cracks and their propagation to final rupture. Microcracks observed in the vertebrae contributed to the decrease in vertebral rupture strength. In order to analyze the biomechanical behavior of the vertebrae and to assess the risk of fracture, an in vivo characterization method is applied based on the micro-MRI, aiming to focus on the evaluation the force at rupture of the vertebral body in compression. The method of extracting the shape of cancellous bone by special filters (adaptive filter, Robert’s filter, etc.) will be applied, allowing it to be modelled as a slice (2D). This micro slice are created by edge configuration generation and triangulated cube configuration generation in capturing section contour points from medical image per slice, creating B-spline curve with the control points in each layer, producing solid model construction in Planar Contours method. Medical rapid prototyping models are performed in SolidWorks. Layered manufacturing techniques are used for producing parts of arbitrary complexity, which will then be modelled by finite element in fatigue.
2017
Faiza, Khalid, et al. 2017. “Simulation du comportement thermomécanique d’une poutre sandwiche en matériaux composites”. 3ème Conférence Internationale de Mécanique ICM’2017 , 26-27/04/.
Abderraouf, Benali, and Benmohammed Brahim. 2017. “Prédiction des efforts de coupe pour le fraisage périphérique en utilisant la théorie prédictive d’Oxley et la loi de comportement de Johnson-Cook”. La 3ème Conférence Internationale de Mécanique (I.C.M.’ 2017) Annaba, 26-27 Avril . Publisher's Version
Cherifa, Azoui, and Benmohammed Brahim. 2017. “A review of milling stability using semi discretization method”. La 3ème Conférence Internationale de Mécanique (I.C.M.’ 2017) Annaba, 26-27 Avril . Publisher's Version
2015
Linda, Himed, and Benmohammed Brahim. 2015. “Evolutions des efforts de coupe en simulant la coupe orthogonale”. 22ème Congrès Français de Mécanique (CFM’2015), 24 au 28 Août, Lyon, France. Publisher's Version
Abderraouf, Benali, and Benmohammed Brahim. 2015. “Numerical simulation of chip formation in case of orthogonal machining process”. 6ème Congrès International Conception et Modélisation des Systèmes Mécaniques (CMSM’2015), Hammamet, Tunisie, 23 - 25 Mars . Publisher's Version
Cherifa, Azoui, and Benmohammed Brahim. 2015. “Stability lobes for 1 DOF and 2 DOF milling system”. 6ème Congrès International Conception et Modélisation des Systèmes Mécaniques (CMSM’2015), Hammamet, Tunisie, 23 - 25 Mars . Publisher's Version
2014
Linda, Himed. 2014. “Modeling and simulation of the orthogonal cut by using the law of Damage”. 2nd Annual International Interdisciplinary Conference, AIIC 2014, 8-12 July, Azores, Portugal Proceedings Vol.2 (N°27). Publisher's Version