Journal Publications 



Submitted


30.     Han, G., Walsh, S. K., Henak, C. R., Eriten, M., “The effect of dehydration on micromechanical and dissipative properties of cartilage.” Acta Biomaterialia (submitted).


2017


29.     Moore, K. J., Kurt, M., Eriten, M., McFarland, D. M., Bergman, L. A., Vakakis, A. F., Dodson, J., and Foley, J., “Nonlinear system identification of mechanical interfaces based on primary wave scattering.” SEM Exp. Mech. (in press) [collected and analyzed the experimental data; helped on the theoretical analyses, preparation of the manuscript, fully completed after joining UW]. link


28.     Moore, K. J., Kurt, M., Eriten, M., McFarland, D. M., Bergman, L. A., and Vakakis, A. F., “Wavelet bounded empirical mode decomposition with application to nonlinear dynamical systems.” MSSP (in press) [helped on the theoretical analyses, preparation of the manuscript, fully completed after joining UW].


27.    Lejie, L., Usta, A. D., and Eriten, M., “A Broadband damper design inspired by cartilage-like relaxation mechanisms.” JSV (in press). link


26.     Usta, A. D., Shinde, S., and Eriten, M., "Experimental investigation of energy dissipation in presliding contacts under varying normal and tangential loads." ASME J. of Tribology (in press). link


25.      Chen, S., Usta, A. D., and Eriten, M., "Microstructure and wear resistance of Ti6Al4V surfaces processed by pulsed laser."Surface and Coatings Technologies 315, 220-235, 2017. link


24.     Kurt, M., Moore, K. J., Eriten, M., McFarland, D. M., Bergman, L. A., and Vakakis, A. F., “Nonlinear model updating methodology with application to the IMAC XXXIII round robin benchmark problem.” MSSP 88, 111-122, 2017. link


2016


23.     Lejie, L. and Eriten, M., “Frictional Energy Dissipation in Wavy Surfaces.” ASME JAM 83(12), 2016. link


22.     Eriten, M., Usta, A. D., and Lejie, L., “Tuning the dissipation in friction dampers excited by depolarized waves across patterned surfaces.” ASME JVA 138(5), 2016. link


21.     Patil, D., and Eriten, M.,” Effect of roughness on energy dissipation in presliding contacts." ASME J. of Trib. 138 (1), 2016. link


20.     Kurt, M., Moore, K. J., Eriten, M., McFarland, D. M., Bergman, L. A., and Vakakis, A. F., “Nonlinear model updating methodology with application to the IMAC XXXIII round robin benchmark problem.” Nonlinear Dyn. 1, 2016. link


2015


19.     Kurt, M., Eriten, M., McFarland, D. M., Bergman, L. A., Vakakis, A. F., “Methodology for Model Updating of Mechanical Components with Local Nonlinearities.” JSV 357, 2015. link


18.  Patil, D., and Eriten, M. "Frictional energy dissipation in spherical contacts under presliding: Effect of elastic mismatch, plasticity and phase difference in loading." ASME JAM 2015 (doi:10.1115/1.4029020). link


2014


17.  Patil, D., and Eriten, M. "Effect of interfacial strength and roughness on static friction coefficient," Trib. Lett. doi: 10.1007/s11249-014-0414-0, 2014. link


16.  Kurt, M., Slavkin, I., Eriten, M., McFarland, D. M., Gendelman, O. V., Bergman, L. A., Vakakis, A. F., “Effect of 1: 3 resonance on the steady-state dynamics of a forced strongly nonlinear oscillator with a linear light attachment.” Arch. of Appl. Mech. 84 (8), 1189-1203, 2014. link


15.  Kurt, M., Eriten, M., McFarland, D. M., Bergman, L. A., and Vakakis, A. F., "Frequency-Energy Plots of Steady State Solutions for Forced and Damped Systems and Vibration Isolation by Nonlinear Mode Localization," CNSNS 19 (8), 2905-2917, 2014. link


2013


14.  Kurt, M., Eriten, M., McFarland, D. M., Bergman, L. A., and Vakakis, A. F., "Strongly Nonlinear Beats in the Dynamics of an Elastic System with a Strong Local Stiffness Nonlinearity: Analysis and Identification,"JSV 333 (7), 2054-2072, 2013. link


13.  Eriten, M., Kurt, M., Luo, G., McFarland, D. M., Vakakis, A. F., and Bergman, L. A., “Nonlinear System Identification of Frictional Effects in a Beam with Bolted Joint Connection,” MSSP 39 (1), 245-264, 2013. link


12.  Truster, T., Eriten, M., Polycarpou, A. A., Bergman, L. A., and Masud, A., “A New Computational Method for Mechanical Joints: Physics-Based Models and Variationally Consistent Embedding,” IJSS 50 (14), 2132-2150, 2013. link


11.  Chandrasekar, S., Eriten, M., and Polycarpou, A. A., “An Improved Normal Contact Model Accounting for Asperity Interaction,” ASME JAM 80 (1), 011025, 2013.


2012


10.  Eriten, M., Polycarpou, A. A., and Bergman, L. A., “A Physics-based Friction Model and Integration to a Simple Dynamical System,” ASME JVA 134 (5), 051012, 2012. link


9.  Eriten, M., Lee, C.-H., and Polycarpou, A. A., “Tangential Stiffness of Mechanical Joints: Direct Measurements versus Contact Resonance Method,” Trib. Int. 50, 35-44, 2012. link


8.  Eriten, M., Petlicki, D., Polycarpou, A. A., and Bergman, L. A., “Influence of Friction and Adhesion on the Onset of Plasticity During Normal Loading of Spherical Contacts,” Mech. of Mater. 48, 26-42, 2012. link


2011


7.  Eriten, M., Polycarpou, A. A., and Bergman, L. A., “Effects of Surface Roughness and Lubrication on the Early Stages of Fretting of Mechanical Lap Joints,” Wear 271 (11), 2928-39, 2011. link


6.  Eriten, M., Polycarpou, A. A., and Bergman, L. A., “Physics-based Modeling for Fretting Behavior of Nominally Flat Rough Surfaces,” IJSS 48 (10), 1436-50, 2011. link


5.  Eriten, M., Polycarpou, A. A., and Bergman, L. A., “Development of a Lap Joint Fretting Apparatus,” Exp. Mech. 51 (8), 1405-19, 2011. link


4.  Vakis, A., Eriten, M., and Polycarpou, A. A., “Modeling Bearing and Shear Forces in Molecularly Thin Lubricants,” Trib. Lett. 41 (3), 573-86, 2011. link


2010


3.  Eriten, M., Polycarpou, A. A., and Bergman, L. A., “Physics-based Modeling for Partial Slip Behavior of Spherical Contacts,” IJSS 47 (18), 2554-2567, 2010. link


2.  Lee, C.-H., Eriten, M., and Polycarpou, A. A., “Application of Elastic-Plastic Static Friction Models to Rough Surfaces with Asymmetric Asperity Distribution,” ASME J. of Trib. 132 (3), 031602, 2010. link


2009


1.  Eriten, M. and Dankowicz, H., “A Rigorous Dynamical-systems-based Analysis of the Self-stabilizing Influence of Muscles,” ASME J. of Biomech. Eng. 131 (1), 011011, 2009. link