SCOLARI, FABIO

SCOLARI, FABIO  

Dipartimento di Ingegneria e Architettura  

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Titolo Data di pubblicazione Autore(i) File
Active pressure ripple control in axial piston pumps through high-frequency swash plate oscillations—A theoretical analysis 1-gen-2019 Casoli, P.; Pastori, M.; Scolari, F.; Rundo, M.
CFD Analyses of Textured Surfaces for Tribological Improvements in Hydraulic Pumps 1-gen-2020 Casoli, Paolo; Scolari, Fabio; Rundo, Massimo; Lettini, Antonio; Rigosi, Manuel
A cfd design of engineered surface for tribological performance improvements in hydraulic pumps 1-gen-2020 Casoli, Paolo; Scolari, Fabio; Rossi, Carlo; Rigosi, Manuel
Comparative energy analysis of a load sensing system and a zonal hydraulics for a 9-tonne excavator 1-gen-2020 Casoli, P.; Scolari, F.; Minav, T.; Rundo, M.
Dynamic modelling of the swash plate of a hydraulic axial piston pump for condition monitoring applications 1-gen-2018 Bedotti, Andrea; Pastori, Mirko; Scolari, Fabio; Casoli, Paolo
Energy Comparison between a Load Sensing System and Electro-Hydraulic Solutions Applied to a 9-Ton Excavator 1-gen-2022 Casoli, P.; Scolari, F.; Vescovini, C. M.; Rundo, M.
Modelling and validation of cavitating orifice flow in hydraulic systems 1-gen-2021 Casoli, P.; Scolari, F.; Rundo, M.
A multi-fault diagnostic method based on acceleration signal for a hydraulic axial piston pump 1-gen-2019 Casoli, Paolo; Pastori, Mirko; Scolari, Fabio
Swash plate design for pressure ripple reduction – A theoretical analysis 1-gen-2019 Casoli, Paolo; Pastori, Mirko; Scolari, Fabio
Theoretical Analysis of Active Flow Ripple Control in Positive Displacement Pumps 1-gen-2022 Casoli, P.; Vescovini, C. M.; Scolari, F.; Rundo, M.
A vibration signal-based method for fault identification and classification in hydraulic axial piston pumps 1-gen-2019 Casoli, P.; Pastori, Mirko; Scolari, Fabio; Rundo, M.