Dynamics of Machining Process

Simulation of Forming and Machining Processes

Tolerance Analysis

Design and Other Topics

 

 

Dynamics of Machining Process

  • Razban, M., & Movahhedy, M. R. (2015). A speed-dependent variable preload system for high speed spindles. Precision Engineering, 40, 182-188.

  • Moradi, H., Vossoughi, G., Behzad, M., & Movahhedy, M. R. (2015). Vibration absorber design to suppress regenerative chatter in nonlinear milling process: Application for machining of cantilever plates. Applied Mathematical Modelling, 39(2), 600-620.

  • Hajmohammadi, M. S., Movahhedy, M. R., & Moradi, H. (2014). Investigation of thermal effects on machining chatter based on FEM simulation of chip formation. CIRP Journal of Manufacturing Science and Technology, 7(1), 1-10.

  • Tajalli, S. A., Movahhedy, M. R., & Akbari, J. (2014). Chatter instability analysis of spinning micro-end mill with process damping effect via semi-discretization approach. Acta Mechanica, 225(3), 715-734.

  • Tajalli, S. A., Movahhedy, M. R., & Akbari, J. (2013). Size dependent vibrations of micro-end mill incorporating strain gradient elasticity theory.Journal of Sound and Vibration, 332(15), 3922-3944.

  • Moradi, H., Vossoughi, G., Movahhedy, M. R., & Ahmadian, M. T. (2013). Forced vibration analysis of the milling process with structural nonlinearity, internal resonance, tool wear and process damping effects. International Journal of Non-Linear Mechanics, 54, 22-34.

  • Moradi, H., Vossoughi, G., Movahhedy, M. R., & Salarieh, H. (2013). Suppression of nonlinear regenerative chatter in milling process via robust optimal control. Journal of Process Control, 23(5), 631-648.

  • Moradi, H., Vossoughi, G., & Movahhedy, M. R. (2013). Experimental dynamic modelling of peripheral milling with process damping, structural and cutting force nonlinearities. Journal of Sound and Vibration, 332(19), 4709-4731.

  • Rezaei, M. M., Movahhedy, M. R., Moradi, H., & Ahmadian, M. T. (2012). Extending the inverse receptance coupling method for prediction of tool-holder joint dynamics in milling. Journal of Manufacturing Processes, 14(3), 199-207.

  • Moradi, H., Movahhedy, M. R., & Vossoughi, G. (2012). Tunable vibration absorber for improving milling stability with tool wear and process damping effects. Mechanism and Machine Theory, 52, 59-77.

  • Moradi, H., Movahhedy, M. R., & Vossoughi, G. (2012). Bifurcation analysis of milling process with tool wear and process damping: regenerative chatter with primary resonance. Nonlinear Dynamics, 70(1), 481-509.

  • Moradi, H., Movahhedy, M. R., & Vossoughi, G. (2012). Dynamics of regenerative chatter and internal resonance in milling process with structural and cutting force nonlinearities. Journal of Sound and Vibration, 331(16), 3844-3865.

  • Moradi, H., Bakhtiari-Nejad, F., Movahhedy, M. R., & Vossoughi, G. (2012). Stability improvement and regenerative chatter suppression in nonlinear milling process via tunable vibration absorber. Journal of Sound and Vibration, 331(21), 4668-4690.

  • Zahedi, A., & Movahhedy, M. R. (2012). Thermo-mechanical modeling of high speed spindles. Scientia Iranica, 19(2), 282-293.

  • Mahnama, M., & Movahhedy, M. R. (2012). Application of FEM simulation of chip formation to stability analysis in orthogonal cutting process. Journal of Manufacturing Processes, 14(3), 188-194.

  • Mahnama, M., & Movahhedy, M. R. (2010). Prediction of machining chatter based on FEM simulation of chip formation under dynamic conditions.International journal of machine tools and manufacture, 50(7), 611-620. 

  • Moradi, H., Movahhedy, M. R., & Vossoughi, G. (2010, January). Linear and nonlinear model of cutting forces in peripheral milling: a comparison between 2D and 3D models. In ASME 2010 International Mechanical Engineering Congress and Exposition (pp. 955-962). American Society of Mechanical Engineers.

  • Moradi, Hamed, Mohammad R. Movahhedy, and Gholamreza Vossoughi. "Sliding mode control of machining chatter in the presence of tool wear and parametric uncertainties." Journal of Vibration and Control 16, no. 2 (2010): 231-251.

  • Moradi, H., Bakhtiari-Nejad, F., Movahhedy, M. R., & Ahmadian, M. T. (2010). Nonlinear behaviour of the regenerative chatter in turning process with a worn tool: Forced oscillation and stability analysis. Mechanism and Machine Theory, 45(8), 1050-1066.

  • Moradi, H., Movahhedy, M. R., & Vossoughi, G. R. (2009). Robust control strategy for suppression of regenerative chatter in turning. Journal of Manufacturing Processes, 11(2), 55-65.

  • Movahhedy, M. R., & Zahedi, A. (2009). An investigation of contact angles in angular contact ball bearings accounting for high speed effects and preload. SAE International Journal of Passenger Cars-Mechanical Systems,2(1), 780-790.

  • Moradi, H., Bakhtiari-Nejad, F., & Movahhedy, M. R. (2008). Tuneable vibration absorber design to suppress vibrations: An application in boring manufacturing process. Journal of Sound and Vibration, 318(1), 93-108.

  • Movahhedy, M.R. and Mosaddegh, P., (2006), “Prediction of chatter in high speed milling including gyroscopic effects”, Int. Journal of Machine Tools and Manufacture, to appear.

  • Movahhedy, M.R. and Gerami, J.M., (2006), “Prediction of spindle dynamics in milling by sub-structure coupling”, Int. Journal of Machine Tools and Manufacture, Vol. 46, pp. 243-251.

  • Park, S.S., Altintas, Y. and Movahhedy, M.R., (2003), “Receptance Coupling for End Mills”, Int. Journal of Machine Tools and Manufacture, Vol. 43, pp. 889-896.

 

Simulation of Forming and Machining Processes

  • Tajalli, S. A., Movahhedy, M. R., & Akbari, J. (2014). Simulation of orthogonal micro-cutting of FCC materials based on rate-dependent crystal plasticity finite element model. Computational Materials Science86, 79-87.

  • Beni, Y. T., & Movahhedy, M. R. (2010). Consistent arbitrary Lagrangian Eulerian formulation for large deformation thermo-mechanical analysis.Materials & Design31(8), 3690-3702.

  • Beni, Y. T., Movahhedy, M. R., & Farrahi, G. H. (2010). A COMPLETE TREATMENT OF THERMO-MECHANICAL ALE ANALYSIS; PART I: FORMULATION*. Iranian Journal of Science and Technology34(B2), 135.

  • Beni, Y. T., Movahhedy, M. R., & Farrahi, G. H. (2009). Rate-dependent dynamic ALE analysis of finite deformation of elasto-viscoplastic solids.Materials & Design30(8), 2995-3004.

  • Hosseinian, E., Farrahi, G. H., & Movahhedy, M. R. (2009). An analytical framework for the solution of autofrettaged tubes under constant axial strain condition. Journal of Pressure Vessel Technology131(6), 061201.

  • Ghaei, A., Movahhedy, M. R., & Taheri, A. K. (2008). Finite element modelling simulation of radial forging of tubes without mandrel. Materials & Design29(4), 867-872.

  • Bihamta, R., Movahhedy, M. R., & Mashreghi, A. R. (2007). A numerical study of swage autofrettage of thick-walled tubes. Materials & design28(3), 804-815.

  • Ameli, A., & Movahhedy, M. R. (2007). A parametric study on residual stresses and forging load in cold radial forging process. The International Journal of Advanced Manufacturing Technology33(1-2), 7-17.

  • Ghaei, A., & Movahhedy, M. R. (2007). Die design for the radial forging process using 3D FEM. Journal of materials processing technology182(1), 534-539.

  • Bihamta, R., Ameli, A., Movahhedy, M. R., & Mashregi, A. (2007). A comparative study on the radial and indentation forging of thick-walled tubes.International Journal of Forming Processes10(2), 179.

  • Ghaei, A., Taheri, A. K., & Movahhedy, M. R. (2006). A new upper bound solution for analysis of the radial forging process. International Journal of Mechanical Sciences48(11), 1264-1272.

  • Bihamta, R., Movahhedy, M. R.,  Masherghi, A.R., (2006), "A Numerical Study of Swage Autofrettage of Thick-Walled  Tubes", Journal of Materials and Design, To appear.

  • Afrasiab, H., & Movahhedy, M. R. (2006, January). Generalized slab method analysis of radial forging with a general curved shape die. In ASME 8th Biennial Conference on Engineering Systems Design and Analysis (pp. 883-889). American Society of Mechanical Engineers.

  • Ghaei, A., Movahhedy, M.R., and Karimi Taheri, A., (2005),  “Study of the Effects of Die Geometry on the Deformation in the Radial Forging Process”, Journal of Materials Processing Technology, Vol. 170, pp. 156-163

  • Movahhedy, M.R. , Altintas, Y., and Gadala, M.S., (2002) “Numerical Analysis of Metal Cutting with Chamfered and Blunt Tools”, Transactions of ASME Journal of Manufacturing Science and Engineering, Vol. 124, pp.178-186.

  • Gadala, M.S., Movahhedy, M.R. and Wang, J.  (2002), “On the Mesh Motion in ALE Simulation of Metal Forming Processes”, Finite Element in Analysis and Design, Vol. 38, pp. 435-459.

  • Movahhedy, M.R., Gadala, M.S., and Altintas, Y., (2000), “Simulation of Chip Formation in Orthogonal Metal Cutting Process; An ALE Finite Element Approach”, Machining Science and Technology, Vol. 4, pp.15-42.

  • Movahhedy, M.R., Gadala, M.S., and Altintas, Y., (2000) “Simulation of Orthogonal Metal Cutting Process Using an Arbitrary Lagrangian-Eulerian Finite Element Method”, Journal of Materials Processing Technology, v. 103, pp.267-275.

 

Tolerance Analysis

  • Aghabeigi, M., & Movahhedy, M. R. (2014). An algorithm for geometrical uncertainty analysis in planar truss structures. Structural and Multidisciplinary Optimization, 49(2), 225-238.

  • Khodaygan, S., & Movahhedy, M. R. (2014). Functional process capability analysis in mechanical systems. The International Journal of Advanced Manufacturing Technology, 73(5-8), 899-912.

  • Khodaygan, S., & Movahhedy, M. R. (2012). Fuzzy-based analysis of process capability for assembly quality assessment in mechanical assemblies. International Journal of Production Research, 50(12), 3395-3415.

  • Khodaygan, S., & Movahhedy, M. R. (2011). Tolerance analysis of assemblies with asymmetric tolerances by unified uncertainty–accumulation model based on fuzzy logic. The International Journal of Advanced Manufacturing Technology, 53(5-8), 777-788.

  • Khodaygan, S., Movahhedy, M. R., & Foumani, M. S. (2011). Fuzzy-small degrees of freedom representation of linear and angular variations in mechanical assemblies for tolerance analysis and allocation. Mechanism and Machine Theory, 46(4), 558-573.

  • Khodaygan, S., Movahhedy, M. R., & Fomani, M. S. (2010). Tolerance analysis of mechanical assemblies based on modal interval and small degrees of freedom (MI-SDOF) concepts. The International Journal of Advanced Manufacturing Technology, 50(9-12), 1041-1061.

  • Movahhedy, M. R., & Khodaygan, S. (2007). Tolerance analysis of mechanical assemblies with asymmetric tolerances. Trans SAE J Materials Manuf, 116, 44-52.

 

Design and Other Topics

  • Mojaddam, M., Hajilouy-Benisi, A., Moussavi-Torshizi, S. A., Movahhedy, M. R., & Durali, M. (2014). Experimental and numerical investigations of radial flow compressor component losses. Journal of Mechanical Science and Technology, 28(6), 2189-2196.

  • Mojaddam, M., Hajilouy-Benisi, A., & Movahhedy, M. R. (2014, June). Optimal design of the volute for a turbocharger radial flow compressor. In ASME Turbo Expo 2014: Turbine Technical Conference and Exposition (pp. V02DT42A037-V02DT42A037). American Society of Mechanical Engineers.

  • Mahnama, M., Naghdabadi, R., & Movahhedy, M. R. (2013). Atomistic investigation of phase transition in solid argon induced by shock wave transmission. Phase Transitions, 86(8), 838-853.

  • Afrasiab, H., Movahhedy, M. R., & Assempour, A. (2012). Fluid–structure interaction analysis in microfluidic devices: A dimensionless finite element approach. International Journal for Numerical Methods in Fluids, 68(9), 1073-1086.

  • Afrasiab, H., Movahhedy, M. R., & Assempour, A. (2011). Finite element and analytical fluid-structure interaction analysis of the pneumatically actuated diaphragm microvalves. Acta mechanica, 222(1-2), 175-192.

  • Movahhedy, M.R., Ismail, F. and Gladwell, G.M.L. (1995), “Reconstruction of a mass-spring system from spectral data, Part II: experiment", Inverse Problems in Engineering, v.1, pp.315-327.

  • Gladwell, G.M.L. and Movahhedy, M.R., (1995), “Reconstruction of a mass-spring system from spectral data, Part I: Theory, Inverse Problems in Engineering, v.1, pp. 179-189.

 

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Last update: March 12, 2016