| Modelling of suspension components in a rail vehicle dynamics context S Bruni, J Vinolas, M Berg, O Polach, S Stichel Vehicle system dynamics 49 (7), 1021-1072, 2011 | 302 | 2011 |
| A simplified methodology to predict the dynamic stiffness of carbon-black filled rubber isolators using a finite element code N Gil-Negrete, J Vinolas, L Kari Journal of Sound and vibration 296 (4-5), 757-776, 2006 | 110 | 2006 |
| Investigation of the influence of rail pad stiffness on rail corrugation on a transit system JI Egana, J Vinolas, M Seco Wear 261 (2), 216-224, 2006 | 107 | 2006 |
| Air suspension characterisation and effectiveness of a variable area orifice A Alonso, JG Gimenez, J Nieto, J Vinolas Vehicle system dynamics 48 (S1), 271-286, 2010 | 88 | 2010 |
| Frequency and amplitude dependence of the axial and radial stiffness of carbon-black filled rubber bushings MJG Tárrago, L Kari, J Vinolas, N Gil-Negrete Polymer testing 26 (5), 629-638, 2007 | 78 | 2007 |
| A nonlinear rubber material model combining fractional order viscoelasticity and amplitude dependent effects N Gil-Negrete, J Vinolas, L Kari | 73 | 2009 |
| Combined active steering and traction for mechatronic bogie vehicles with independently rotating wheels J Perez, JM Busturia, TX Mei, J Vinolas Annual Reviews in Control 28 (2), 207-217, 2004 | 68 | 2004 |
| Effect of liquid high positive friction (HPF) modifier on wheel-rail contact and rail corrugation JI Egana, J Vinolas, N Gil-Negrete Tribology International 38 (8), 769-774, 2005 | 63 | 2005 |
| A low-cost data acquisition system for automobile dynamics applications A González, JL Olazagoitia, J Vinolas Sensors 18 (2), 366, 2018 | 60 | 2018 |
| Time-domain dynamic modelling of the external plunge grinding process J Biera, J Vinolas, FJ Nieto International Journal of Machine Tools and Manufacture 37 (11), 1555-1572, 1997 | 55 | 1997 |
| Rail vehicle passing through a turnout: analysis of different turnout designs and wheel profiles RF Lagos, A Alonso, J Vinolas, X Pérez Proceedings of the Institution of Mechanical Engineers, Part F: Journal of …, 2012 | 54 | 2012 |
| A local active noise control system based on a virtual-microphone technique for railway sleeping vehicle applications J Diaz, JM Egaña, J Vinolas Mechanical systems and signal processing 20 (8), 2259-2276, 2006 | 49 | 2006 |
| Torsion stiffness of a rubber bushing: a simple engineering design formula including the amplitude dependence MJ García Tárrago, L Kari, J Viñolas, N Gil-Negrete The Journal of Strain Analysis for Engineering Design 42 (1), 13-21, 2007 | 43 | 2007 |
| Review of power converter impact of electromagnetic energy harvesting circuits and devices for autonomous sensor applications MR Sarker, MHM Saad, JL Olazagoitia, J Vinolas Electronics 10 (9), 1108, 2021 | 42 | 2021 |
| Predicting the dynamic behaviour of hydrobushings N Gil-Negrete, A Rivas, J Vinolas Shock and Vibration 12 (2), 91-107, 2005 | 35 | 2005 |
| Advances on railway yaw damper characterisation exposed to small displacements A Conde Mellado, E Gomez, J Vinolas International Journal of Heavy Vehicle Systems 13 (4), 263-280, 2006 | 32 | 2006 |
| A simplified methodology to determine the cutting stiffness and the contact stiffness in the plunge grinding process JC Ramos, J Vinolas, FJ Nieto International Journal of Machine Tools and Manufacture 41 (1), 33-49, 2001 | 32 | 2001 |
| An innovative energy harvesting shock absorber system using cable transmission L Bowen, J Viñolas, JL Olazagoitia, JE Otero IEEE/ASME Transactions on Mechatronics 24 (2), 689-699, 2019 | 28 | 2019 |
| Review of travelling-wave thermoacoustic electric-generator technology C Iniesta, JL Olazagoitia, J Vinolas, J Aranceta Proceedings of the Institution of Mechanical Engineers, Part A: Journal of …, 2018 | 28 | 2018 |
| A lateral active suspension for conventional railway bogies AC Mellado, C Casanueva, J Vinolas, JG Giménez Vehicle System Dynamics 47 (1), 1-14, 2009 | 28 | 2009 |
