Alternative coatings/surface treatments for the replacement of the ones currently used in a hydraulic actuator (where sliding motion occurs) were investigated. Candidate solutions were ranked on the basis of laboratory dry sliding tests, followed by bench tests. Thermal-spray coatings were outperformed by a-C:H DLC coatings with a WC/C interlayer, deposited in duplex combinations on carburised or plasma-nitrided steel. The best solution (DLC-coated carburised E470 steel sliding against DLC-coated plasma-nitrided 36CrNiMo4 steel) demonstrated a remarkable increase of contact duration: from less than 5 h in the current configuration, to 22 h without temperature or drain flow increase in the new configuration.
Improvement of wear resistance of components for hydraulic actuators: Dry sliding tests for coating selection and bench tests for final assessment
TONELLI, LAVINIA;MARTINI, CARLA;CESCHINI, LORELLA
2017
Abstract
Alternative coatings/surface treatments for the replacement of the ones currently used in a hydraulic actuator (where sliding motion occurs) were investigated. Candidate solutions were ranked on the basis of laboratory dry sliding tests, followed by bench tests. Thermal-spray coatings were outperformed by a-C:H DLC coatings with a WC/C interlayer, deposited in duplex combinations on carburised or plasma-nitrided steel. The best solution (DLC-coated carburised E470 steel sliding against DLC-coated plasma-nitrided 36CrNiMo4 steel) demonstrated a remarkable increase of contact duration: from less than 5 h in the current configuration, to 22 h without temperature or drain flow increase in the new configuration.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
