. . . . "\u010Cl\u00E1nek prezentuje metody detailn\u00EDho modelov\u00E1n\u00ED vlastnost\u00ED hydrostatick\u00FDch lo\u017Eisek. Odvozen\u00E9 vlastnosti jsou d\u00E1le vyu\u017Eity spolu s MKP pro stavbu model\u016F cel\u00FDch konstruk\u010Dn\u00EDch sestav."@cs . "978-80-903421-9-4" . . "Praha" . "[C58F65C710C0]" . "2"^^ . "Holkup, Tom\u00E1\u0161" . "3"^^ . . . "Simulace chov\u00E1n\u00ED hydrostatick\u00FDch lo\u017Eisek"@cs . . "Vojna, J." . "Hydrostatic bearings are widely used at applications where extremely smooth travel and high damping are required. Nevertheless it is often much more difficult to design hydrostatic guideway compared to the conventional rolling bearings. It is not only because the need for additional components like the pump, pipes, connectors, etc. It is mainly for the need of proper design calculations which (together with the accuracy of both sliding parts) determine the properties of the guideway. There are several approaches which use idealized assumptions (rigid and ideally parallel sliding parts, constant pump pressure, etc). The paper presents methods for more general detailed modeling of hydrostatic pockets and using the FEM for determination of resultant behavior of the whole assemblies." . "CFD; FEA; electro-hydraulic analogy; hydrostatic bearing"@en . "RIV/68407700:21220/08:02151790" . "P(1M0507)" . "Spole\u010Dnost pro obr\u00E1b\u011Bc\u00ED stroje" . . "Mare\u0161, Martin" . . . "Hydrostatic bearings are widely used at applications where extremely smooth travel and high damping are required. Nevertheless it is often much more difficult to design hydrostatic guideway compared to the conventional rolling bearings. It is not only because the need for additional components like the pump, pipes, connectors, etc. It is mainly for the need of proper design calculations which (together with the accuracy of both sliding parts) determine the properties of the guideway. There are several approaches which use idealized assumptions (rigid and ideally parallel sliding parts, constant pump pressure, etc). The paper presents methods for more general detailed modeling of hydrostatic pockets and using the FEM for determination of resultant behavior of the whole assemblies."@en . . . "Simulations of Behavior of Hydrostatic Bearings" . "RIV/68407700:21220/08:02151790!RIV09-MSM-21220___" . . "Simulace chov\u00E1n\u00ED hydrostatick\u00FDch lo\u017Eisek"@cs . "21220" . "Simulations of Behavior of Hydrostatic Bearings"@en . "Simulations of Behavior of Hydrostatic Bearings" . . "2008-09-16+02:00"^^ . "MATAR PRAHA 2008 Part 1: Drives & Control, Design, Models & Simulation" . "6"^^ . . "Simulations of Behavior of Hydrostatic Bearings"@en . . "PRAHA" . . "394918" .