| Dynamic model of a deep-groove ball bearing including localized and distributed defects. Part 1: Theory J Sopanen, A Mikkola Proceedings of the Institution of Mechanical Engineers, Part K: Journal of …, 2003 | 386 | 2003 |
| Review on the absolute nodal coordinate formulation for large deformation analysis of multibody systems J Gerstmayr, H Sugiyama, A Mikkola Journal of Computational and Nonlinear Dynamics 8 (3), 031016, 2013 | 257 | 2013 |
| A non-incremental finite element procedure for the analysis of large deformation of plates and shells in mechanical system applications AM Mikkola, AA Shabana Multibody System Dynamics 9, 283-309, 2003 | 240 | 2003 |
| Dynamic model of a deep-groove ball bearing including localized and distributed defects. Part 2: Implementation and results J Sopanen, A Mikkola Proceedings of the Institution of Mechanical Engineers, Part K: Journal of …, 2003 | 231 | 2003 |
| Description of elastic forces in absolute nodal coordinate formulation JT Sopanen, AM Mikkola Nonlinear Dynamics 34, 53-74, 2003 | 218 | 2003 |
| Direct-drive permanent magnet generators for high-power wind turbines: benefits and limiting factors RS Semken, M Polikarpova, P Röyttä, J Alexandrova, J Pyrhönen, J Nerg, ... IET Renewable Power Generation 6 (1), 1-8, 2012 | 212 | 2012 |
| A geometrically exact beam element based on the absolute nodal coordinate formulation J Gerstmayr, MK Matikainen, AM Mikkola Multibody System Dynamics 20, 359-384, 2008 | 160 | 2008 |
| A new locking-free shear deformable finite element based on absolute nodal coordinates D García-Vallejo, AM Mikkola, JL Escalona Nonlinear dynamics 50, 249-264, 2007 | 136 | 2007 |
| A two-dimensional shear deformable beam element based on the absolute nodal coordinate formulation KE Dufva, JT Sopanen, AM Mikkola Journal of Sound and Vibration 280 (3-5), 719-738, 2005 | 134 | 2005 |
| Modeling of belt-drives using a large deformation finite element formulation KS Kerkkänen, D García-Vallejo, AM Mikkola Nonlinear Dynamics 43, 239-256, 2006 | 124 | 2006 |
| Which muscles compromise human locomotor performance with age? JP Kulmala, MT Korhonen, S Kuitunen, H Suominen, A Heinonen, ... Journal of The Royal Society Interface 11 (100), 20140858, 2014 | 99 | 2014 |
| Flexible multibody simulation approach in the analysis of tibial strain during walking R Al Nazer, T Rantalainen, A Heinonen, H Sievänen, A Mikkola Journal of biomechanics 41 (5), 1036-1043, 2008 | 92 | 2008 |
| Use of the finite element absolute nodal coordinate formulation in modeling slope discontinuity AA Shabana, AM Mikkola J. Mech. Des. 125 (2), 342-350, 2003 | 85 | 2003 |
| Two simple triangular plate elements based on the absolute nodal coordinate formulation O Dmitrochenko, A Mikkola | 81 | 2008 |
| Development of elastic forces for a large deformation plate element based on the absolute nodal coordinate formulation AM Mikkola, MK Matikainen | 75 | 2006 |
| A new elastohydrodynamic lubricated spherical joint model for rigid-flexible multibody dynamics Q Tian, J Lou, A Mikkola Mechanism and Machine Theory 107, 210-228, 2017 | 73 | 2017 |
| Multibody system modeling of leaf springs MA Omar, AA Shabana, A Mikkola, WY Loh, R Basch Journal of Vibration and Control 10 (11), 1601-1638, 2004 | 72 | 2004 |
| Reversible and irreversible compaction of ultrafiltration membranes S Stade, M Kallioinen, A Mikkola, T Tuuva, M Mänttäri Separation and purification technology 118, 127-134, 2013 | 69 | 2013 |
| Comparison of the absolute nodal coordinate and geometrically exact formulations for beams OA Bauchau, S Han, A Mikkola, MK Matikainen Multibody System Dynamics 32, 67-85, 2014 | 66 | 2014 |
| Planetary gear sets power loss modeling: Application to wind turbines C Nutakor, A Kłodowski, J Sopanen, A Mikkola, JI Pedrero Tribology International 105, 42-54, 2017 | 65 | 2017 |
