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000			06076cam a2200781Mi 4500
001			ocn892431982
003			OCoLC
005			20171026104512.0
006			m o d
007			cr \|n\|\|\|\|\|\|\|\|\|
008			141006s2014 enka ob 001 0 eng d
020			_a1119004764 _q(electronic bk.)
020			_a9781119004769 _q(electronic bk.)
020			_a9781119008064
020			_a1119008069
020			_a9781322060828
020			_a1322060827
020			_z9781848216815 _q(hardback)
020			_z1848216815 _q(hardback)
029	1		_aCHBIS _b010259758
029	1		_aCHVBK _b325939977
029	1		_aDEBBG _bBV042987712
029	1		_aDEBBG _bBV043397187
029	1		_aDEBSZ _b431746109
029	1		_aDEBSZ _b449441385
029	1		_aDEBSZ _b475028643
029	1		_aGBVCP _b815101236
035			_a(OCoLC)892431982 _z(OCoLC)887507340 _z(OCoLC)891396805 _z(OCoLC)960201991 _z(OCoLC)961515619 _z(OCoLC)962633792
040			_aYDXCP _beng _erda _epn _cYDXCP _dOCLCQ _dOCLCF _dEBLCP _dIDEBK _dDG1 _dN$T _dRECBK _dOHI _dDEBSZ _dE7B _dVRC _dCDX _dCOO _dDEBBG _dDXU _dLOA _dOCLCQ
049			_aMAIN
050		4	_aTJ1073.5 _b.B66 2014
072		7	_aTEC _x009070 _2bisacsh
082	0	4	_a621.8/22 _223
100	1		_aBonneau, Dominique, _d1948- _eauthor.
245	1	0	_aHydrodynamic bearings / _cDominique Bonneau, Aurelian Fatu, Dominique Souchet. _h[electronic resource]
264		1	_aLondon : _bISTE, _c2014.
300			_a1 online resource (xxvii, 191 pages .).
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
490	1		_aNumerical methods in engineering series
504			_aIncludes bibliographical references and index.
505	0		_aCover; Title Page; Copyright; Contents; Foreword by J.F. Booker; Foreword by Jean Frêne; Preface; Nomenclature; Chapter 1: The Lubricant; 1.1. Description of lubricants; 1.2. The viscosity; 1.2.1. Viscosity -- temperature relationship; 1.2.2. Viscosity -- pressure relationship; 1.2.3. Viscosity -- pressure -- temperature relationship; 1.2.4. Non-Newtonian behavior; 1.3. Other lubricant properties; 1.4. Lubricant classification and notation; 1.5. Bibliography; Chapter 2: Equations of Hydrodynamic Lubrication; 2.1. Hypothesis; 2.2. Equation of generalized viscous thin films.
505	8		_a2.3. Equations of hydrodynamic for journal and thrust bearings; 2.3.1. Specific case of an uncompressible fluid; 2.3.2. Standard Reynolds equation for a journal bearing: general case; 2.3.3. Reynolds equation for a thrust bearing: general case; 2.3.4. Equation of volume flow rate; 2.3.5. Equations of hydrodynamic for journal and thrust bearings lubricated with an isoviscous uncompressible fluid; 2.4. Film rupture; second form of Reynolds equation; 2.5. Particular form of the viscous thin film equation in the case of wall slipping; 2.6. Boundary conditions; lubricant supply.
505	8		_a2.6.1. Conditions on bearing edges; 2.6.2. Conditions for circular continuity; 2.6.3. Conditions on non-active zone boundaries; 2.6.4. Boundary conditions for supply orifices; 2.7. Flow rate computation; 2.7.1. First assumptions; 2.7.2. Model and additional assumptions; 2.7.3. Pressure expression for the full film fringes on the bearing edges; 2.7.4. Evolution of the width of the full film fringes on the bearing edges; 2.7.4.1. The pressure in the full film fringe remains greater than the cavitation pressure.
505	8		_a2.7.4.2. The pressure in the full film fringe becomes lower than the cavitation pressure; 2.7.5. Computation of the flow rate for lubricant entering by the bearing sides; 2.8. Computation of efforts exerted by the pressure field and the shear stress field: journal bearing case; 2.9. Computation of efforts exerted by the pressure field and the shear stress field: thrust bearing case; 2.10. Computation of viscous dissipation energy: journal bearing case; 2.11. Computation of viscous dissipation energy: thrust bearing case; 2.12. Different flow regimes; 2.13. Bibliography.
505	8		_aChapter 3: Numerical Resolution of the Reynolds Equation; 3.1. Definition of the problems to be solved; 3.1.1. Definition of the problems to be solved; 3.1.2. Problem 2: determining of the pressure and the lubricant filling; 3.1.3. Other problems; 3.2. The finite difference method; 3.2.1. Computation grid; 3.2.2. Discretization of standard Reynolds equation (problem 1); 3.2.3. Discretization of modified Reynolds equation (problem 2); 3.3. The finite volume method 3; 3.3.1. Mesh of the film domain; 3.3.2. Discretization of the standard Reynolds equation (problem 1).
505	8		_a3.3.3. Discretization of modified Reynolds equation (problem 2).
520			_aThis Series provides the necessary elements to the development and validation of numerical prediction models for hydrodynamic bearings. This book describes the rheological models and the equations of lubrication. It also presents the numerical approaches used to solve the above equations by finite differences, finite volumes and finite elements methods.
588	0		_aPrint version record.
650		0	_aFluid-film bearings _xMathematical models.
650		0	_aLubrication and lubricants.
650		0	_aBearings (Machinery)
650		4	_aBearings (Machinery)
650		4	_aFluid-film bearings _xMathematical models.
650		4	_aLubrication and lubricants.
650		7	_aTECHNOLOGY & ENGINEERING _xMechanical. _2bisacsh
650		7	_aBearings (Machinery) _2fast _0(OCoLC)fst00829285
650		7	_aFluid-film bearings _xMathematical models. _2fast _0(OCoLC)fst00928028
650		7	_aLubrication and lubricants. _2fast _0(OCoLC)fst01003341
655		4	_aElectronic books.
700	1		_aFatu, Aurelian, _eauthor.
700	1		_aSouchet, Dominique, _eauthor.
776	0	8	_iPrint version: _aBonneau, Dominique, 1948- _tHydrodynamic bearings. _dLondon : ISTE, 2014 _z9781848216815 _z1848216815
830		0	_aNumerical methods in engineering series.
856	4	0	_uhttp://onlinelibrary.wiley.com/book/10.1002/9781119004769 _zWiley Online Library
942			_2ddc _cBK
999			_c207702 _d207702