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2014

  1. Hambli R., 2014, Connecting mechanics and bone cell activities in the bone remodeling process: an integrated finite element modeling,Front. Bioeng. Biotechnol., 08 April 2014 | doi: 10.3389/fbioe.2014.00006

  2. Hambli R., 2014, Bone remodeling in silico model based on osteoclasts and osteoblasts activities, Osteoporos Int. DOI 10.1007/s00198-014-2681-x (In press).

  3. Hambli R. and Kourta A., 2014, A theory for internal bone remodeling based on interstitial fluid velocity stimulus function, Applied Mathematical Modelling (In press).

  4. Hambli R., 2014, Connecting mechanics and bone cell activities in the bone remodeling process: an integrated finite element modeling, Frontiers in Bioengineering and Biotechnology, doi: 10.3389/fbioe.2014.00006, (In press)

  5. Abdelwahed Barkaoui, Ridha Hambli and João Manuel R.S. Tavares (2014), Effect of material and structural factors on fracture behaviour of mineralised collagen microfibril using finite element simulation, Computer Methods in Biomechanics and Biomedical Engineering, (on line)

  6. Ridha Hambli (2014), 3D Finite element simulation of human proximal femoral fracture under quasi-static load, Advances in Biomechanics and Applications, , Vol.1; No.1; pages.1-14

  7. Ridha Hambli, Samir Allaoui, Awad Bettamer, Ahmad, Rachid Jennane, Olivier Rozenbaum, Claude-Laurent Benhamou and Eric Lespessailles, Validation of a novel finite element model of proximal femur fracture with optical full-field strain measurement, MBEC (ON LINE)

  8. Nour Hattab, Ridha Hambli (2014), Prediction of copper and chromium concentrations in bean leaves based on an artificial neural network model, International Journal of Environmental Science and Technology.

 

2013

  1. Hambli R., 2013, A quasi-brittle continuum damage finite element model of the human proximal femur based on element deletion, Med Biol Eng Comput., 2013 Volume 51, Issue 1-2, pp 219-231

  2. Hambli R., 2013, Micro-CT finite element model and experimental validation of trabecular bone damage and fracture, Bone, 56(2):363-74.

  3. Hambli R., Lespessailles E. and Benhamou C.L., 2013, Integrated remodeling-to-fracture finite element model of human proximal femur behaviour, J Mech Behav Biomed Mater, 17:89-106.

  4. Hambli R., and Barkaoui A., Nanomechanical properties of mineralized collagen microfibrils based on finite elements method: biomechanical role of cross-links, Computer Methods in Biomechanics and Biomedical Engineering (on line)

  5. Ridha Hambli, Rachid Jennane, Claude-Laurent Benhamou , Wafa Skalli, Sébastien Laporte, Jeans-Denis Laredo and Joseph Zarka, Combined finite element model of human proximal femur behaviour considering remodeling and fracture, IRBM, Volume 34, Issue 2, Pages 191-195

  6. Nour Hattab, Ridha Hambli, Mikael Motelica-Heino, Xavier Bourrat and Michel Mench, Application of neural network model for the prediction of chromium concentration in phytoremediated contaminated soils, Journal of Geochemical Exploration, Volume 128, May 2013, Pages 25–34

  7. Nour Hattab, Ridha Hambli, Mikael Motelica-Heino, Neural network and Monte Carlo simulation approach to investigate variability of copper concentration in phytoremediated contaminated soils, Journal of Environmental Management, Volume 129, 15 November 2013, Pages 134–142

  8. Barkaoui, A., Chamekh, A.,Merzouki, T., Hambli, R., Mkaddem, A., 2013, Multiscale approach including microfibril scale to assess elastic constants of cortical bone based on neural network computation and homogenization method ;Int j numer method biomed eng.(on line)

  9. Ridha Hambli and Samir Allaoui, A robust 3D Finite element simulation of human proximal femur progressive fracture under stance load with experimental validation, Journal of the Mechanical Behavior of Biomedical Materials Annals of Biomedical Engineering, December 2013, Volume 41, Issue 12, pp 2515-2527

  10. Ridha Hambli and Philip Thurner.(2013), Finite element prediction with experimental validation of damage distribution in single trabeculae during three-point bending tests. J Mech Behav Biomed Mater.27:94-106.

 

2012

  1. Hambli R, Bettamer A, Allaoui S. 2012, Finite element prediction of proximal femur fracture pattern based on orthotropic behaviour law coupled to quasi-brittle damage. Med Eng Phys. 34(2):202-10

  2. Hambli R. and Barkaoui A., 2012, Physically based 3D finite element model of a single mineralized collagen microfibril, Journal of Theoretical Biology, 21;301:28-41.

  3. Hambli R., and Rieger R., Physiologically based mathematical model of transduction of mechanobiological signals by osteocytes. Biomech Model Mechanobiol. 2012, 11:1-2, 83-93

 

2011

  1. Hambli R., Multiscale prediction of crack density and crack length accumulation in trabecular bone based on neural networks and finite element simulation, International Journal for Numerical Methods in Biomedical Engineering, 2011 Vol.27, Issue 4, 461–475

  2. Rieger R., Hambli R., Jennane R , Modeling of biological doses and mechanical effects on bone transduction. Volume 274, Issue 1, 7 April 2011, P:36-42

  3. Hambli R., Katerchi H. and Benhamou C.L., Multiscale methodology for bone remodelling simulation using coupled finite element and neural network computation, Biomech Model Mechanobiol. Biomech Model Mechanobiol (2011) 10:133–145

  4. Hambli R., Numerical procedure for multiscale bone adaptation prediction based on neural networks and finite element simulation, Finite Elements in Analysis and Design, Volume 47, Issue 7, July 2011, Pages 835–842

  5. Hambli R., Apparent Damage Accumulation in Cancellous Bone Using Neural Networks. Journal of the Mechanical Behavior of Biomedical Materials, Volume 4, Issue 6, 2011, Pages 868–878

  6. Aguir H., BelHadjSalah H., Hambli R. Parameter identification of an elasto-plastic behaviour using artificial neural networks-genetic algorithm method, Materials & Design, Volume 32, Issue 1, 2011, 48-53

  7. Barkaoui A, Bettamer A., Hambli R., (2011) Failure of mineralized collagen microfibrils using finite element simulation coupled to mechanical quasi-brittle damage, Procedia Engineering 10:3185–3190.

  8. Barkaoui A, Hambli R., (2011). Finite element 3D modeling of Mechanical Behaviour of Mineralized collagen Microfibrils, J Appl Biomater Biomech 9(3): 207 - 213.

 

2010

  1. A.Chamekh, S. BenRhaiem, H. Khaterchi, H. BelHadjSalah and R.Hambli. An optimization strategy based on a metamodel applied for the prediction of the initial blank shape in a deep drawing process, International Journal of Advanced Manufacturing Technology.

  2. Ridha HAMBLI, Houda KATERCHI and Claude-Laurent benhamou, Multiscale methodology for bone remodeling simulation using coupled finite element and neural network computation, Biomechanics and Modeling in Mechanobiology , BMMB-09-332 (DOI 10.1007/s00170-009-2512-y).

  3. Pascal Lantiéri, Fabrice Guerin and Ridha HAMBLI, Reliability by ALT when no analytical model holds, Quality and Reliability Enginnering International, (DOI: 10.1002/qre.1085).

 

2009

 

  1.  Ridha Hambli, Damien Soulat, Alain Gasser, Claude-Laurent Benhamou, Strain–damage coupled algorithm for cancellous bone mechano-regulation with spatial function influence, Comput. Methods Appl. Mech. Engrg. Volume 198, Issues 33-36, 1 July 2009, Pages 2673-2682.

  2. Ridha Hambli, Statistical damage analysis of extrusion processes using finite element method and neural networks simulation, Finite Elements in Analysis & Design Volume 45, Issue 10, August 2009, Pages 640-649.

  3. Chamekh A., BelHadjSalah H., Hambli R., “Inverse technique identification of material parameters using finite element method and neural network computation”, International Journal of Advanced Manufacturing Technology, (2009) 44:173–179

  4. H. Aguir, A. Chamekh, H. BelHadjSalah, A. Dogui and R. HAMBLI, Parameter identification of a non-associative elastoplastic constitutive model using ANN and multi-objective optimization, International Journal of Material Forming, Volume 2, Number 2, 2009

  5. Faiez Gassara, Ridha Hambli , Tarak Bouraoui, Foued El Halouani and Damien Soulat, Optimization of springback in L-bending process using a coupled Abaqus/Python algorithm, The International Journal of Advanced Manufacturing Technology, Volume 44, Numbers 1-2, pp 61–67 / septembre 2009

  6. Ridha Hambli , Damien Soulat and Abdesselem Chamekh Finite element prediction of blanking tool cost caused by wear , The International Journal of Advanced Manufacturing Technology, Volume 44, Numbers 7-8 pp 648–656 / octobre 2009.

 

  
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