A novel fluid-structure interaction model for lubricating gaps of piston machines

WIT Transactions on the Built Environment

Volumn 105, Issue , 2009, Pages 13-24

  Pelosi, M ^a   Ivantysynova, M ^a  

^a Purdue University   (United States)

Author keywords

Axial piston machines; Hydraulic pumps and motors; Lubricating gaps; Piston cylinder interface; Thermoelastohydrodynamic lubrication

Indexed keywords

AXIAL PISTON MACHINE; COMPLEX FLUIDS; FINITE ELEMENT SOLVER; FLUID FILM THICKNESS; FLUID FILMS; FLUID FLOW; FLUID PRESSURES; FULLY-COUPLED; GAP FLOWS; HEAT TRANSFER MODEL; HYDRAULIC PUMP; HYDRAULIC PUMPS AND MOTORS; LOAD CARRYING ABILITY; LOAD CONDITION; LUBRICATING GAPS; NON-ISOTHERMAL FLUID FLOW; NONISOTHERMAL; PHYSICAL PHENOMENA; POWER-LOSSES; PRESSURE FIELD; SIMULATION RESULT; SQUEEZE FILM EFFECTS; SURFACE TEMPERATURES;

COUPLINGS; CYLINDERS (SHAPES); ELASTOHYDRODYNAMIC LUBRICATION; ENERGY DISSIPATION; FLOW OF FLUIDS; FLUID DYNAMICS; FLUID STRUCTURE INTERACTION; FLUIDS; HEAT TRANSFER; HYDRAULIC DRIVES; HYDRAULIC MACHINERY; HYDRAULICS; MACHINE DESIGN; MOTORS; PRESSURE EFFECTS; PUMPS; SIMULATORS; TEMPERATURE MEASUREMENT; WATER WAVE EFFECTS;

STRUCTURAL DESIGN;

ENERGY DISSIPATION; ENGINE; FLUID-STRUCTURE INTERACTION; HYDRAULICS; KINETIC ENERGY; THERMOELASTICITY; THERMOHYDROMECHANICS;

EID: 71649091347     PISSN: 17433509     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.2495/FSI090021     Document Type: Conference Paper

References (11)

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