000 a
999 _c17563
_d17563
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040 _aAIKTC-KRRC
_cAIKTC-KRRC
100 _917969
_aMondal, N.
245 _a Experimental Exploration on Pressure-Compensated Swash Plate-Type Variable Displacement Axial Piston Pump
250 _aVol, 103(3), June
260 _aKolkatta Institution of engineers
_bSpringer
_c2022
300 _a267-277p
520 _afixed displacement swash plate-type axial piston pump acts as a variable displacement when the swash plate position alters from its initial stage. The pressure compensator arrangement is used to alter the position of the swash plate as per the requirement of flow rate. The flow rate depends on the position of swash plate which determines the swept length of the barrel piston. In this exertion, an experimental exploration has been carried out on a commercial pressure-compensated variable displacement swash plate-type axial piston pump. An electrohydraulic circuit has been developed with some essential electrical, electronic and hydraulic instruments to understand the role of pressure compensator of a variable displacement pump as well as how the variation in speed of the motor affects the pressure and flow dynamics of the pump. The importance of separating pressure relief valve dynamics from pump dynamics in such type of hydraulic circuit has been studied very carefully for different cut-off pressure. The effects of load valve transients on pressure and flow characteristics of the pump have also been studied for different demand signals. It is observed that effects due to deadband in the load valve may mislead the interpretation of flow characteristics of the pump at cut-off pressure. Successively, the effect of rotating speed of the motor which is associated with the pump has been studied for a particular load condition and different cut-off pressure.
650 0 _94626
_aMechanical Engineering
700 _917972
_aSaha, R.
773 0 _dKolkata Institution of Engineers (India)
_tJournal of the institution of engineers (India): Series C
_x2250-0545
856 _uhttps://link.springer.com/article/10.1007/s40032-021-00796-3
_yClick here
942 _2ddc
_cAR