Hydrostatic lubrication /

Hydrostatic lubrication is characterized by the complete separation of the conjugated surfaces of a kinematic pair, by means of a film of fluid, which is pressurized by an external piece of equipment. Its distinguishing features are lack of wear, low friction, high load capacity, a high degree of st...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bassani, Roberto
Otros Autores: Piccigallo, Bruno
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Elsevier, 1992.
Colección:Tribology series ; 22.
Temas:
Fluid-film bearings.
Paliers fluides.
TECHNOLOGY & ENGINEERING > Machinery.
Fluid-film bearings
Coussinets (machines)
Tribologie (technologie)
Tribology
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Front Cover; Hydrostatic Lubrication; Copyright Page; Contents; List of main symbols; Chapter 1. HYDROSTATIC BEARINGS; 1.1 INTRODUCTION; 1.2 WORKING PRINCIPLE; 1.3 ADVANTAGES AND DRAWBACKS; 1.4 APPLICATIONS; 1.5 TYPES OF BEARINGS; REFERENCES; Chapter 2. COMPENSATING DEVICES; 2.1 INTRODUCTION; 2.2 DIRECT SUPPLY SYSTEMS; 2.3 COMPENSATED SUPPLY SYSTEM; 2.4 THE COMMONEST SUPPLY SYSTEMS; 2.5 HYDRAULIC CIRCUIT; REFERENCES; Chapter 3. LUBRICANTS; 3.1 INTRODUCTION; 3.2 MINERAL LUBRICANTS; 3.3 SYNTHETIC LUBRICANTS; REFERENCES; Chapter 4. BASIC EQUATIONS; 4.1 INTRODUCTION
  • 4.2 NAVIER-STOKES AND CONTINUITY EQUATIONS4.3 THE REYNOLDS EQUATION; 4.4 THE LAPLACE EQUATION; 4.5 LOAD CAPACITY, FLOW RATE, FRICTION; 4.6 THE ENERGY EQUATION; 4.7 LAMINAR FLOW THROUGH CHARACTERISTIC CONFIGURATIONS; 4.8 FLOW INTO THE INLET LENGTH; 4.9 INLET LOSSES; 4.10 TURBULENT FLOW; 4.11 THE FLOW IN ORIFICES; REFERENCES; Chapter 5. PAD COEFFICIENTS; 5.1 INTRODUCTION; 5.2 GENERAL STATEMENTS; 5.3 CIRCULAR RECESS PAD; 5.4 ANNULAR RECESS PADS; 5.5 TAPERED PADS; 5.6 SPHERICAL PADS; 5.7 RECTANGULAR PADS; 5.8 CYLINDRICAL PADS; 5.9 HYDROSTATIC LIFTS; 5.10 SCREW AND NUT ASSEMBLY; REFERENCES
  • Chapter 6. SINGLE PAD BEARINGS6.1 INTRODUCTION; 6.2 DIRECT SUPPLY; 6.3 COMPENSATED SUPPLY; 6.4 DESIGN OF SINGLE-PAD THRUST BEARINGS; Chapter 7. OPPOSED-PAD AND MULTIPAD BEARINGS; 7.1 INTRODUCTION; 7.2 OPPOSED-PAD BEARINGS; 7.3 LEAD SCREWS; 7.4 SELF-REGULATING BEARINGS; 7.5 HYDROSTATIC SLIDEWAYS; 7.6 MULTIPAD JOURNAL BEARINGS; REFERENCES; Chapter 8. MULTIRECESS BEARINGS; 8.1 INTRODUCTION; 8.2 ANALYSIS; 8.3 MULTIRECESS JOURNAL BEARINGS; 8.4 ANNULAR MULTIRECESS THRUST BEARINGS; 8.5 TAPERED MULTIRECESS BEARINGS; 8.6 SPHERICAL JOURNAL BEARINGS; 8.7 YATES BEARINGS; REFERENCES
  • Chapter 9. HYBRID PLAIN JOURNAL BEARINGS9.1 INTRODUCTION; 9.2 PERFORMANCE OF THE HYBRID PLAIN JOURNAL BEARINGS; 9.3 DESIGN OF HYBRID BEARINGS; 9.4 CONCLUDING REMARKS; REFERENCES; Chapter 10. DYNAMICS; 10.1 INTRODUCTION; 10.2 EQUATION OF MOTION; 10.3 PAD COEFFICIENTS; 10.4 SUPPLY SYSTEMS; 10.5 DYNAMICS OF SINGLE-PAD BEARINGS; 10.6 OPPOSED-PAD BEARINGS; 10.7 SELF-REGULATING BEARINGS; 10.8 MULTIPAD BEARING SYSTEMS; 10.9 MULTIRECESS JOURNAL BEARINGS; REFERENCES; Chapter 11. OPTIMIZATION; 11.1 INTRODUCTION; 11.2 GENERAL PROCEDURE; 11.3 CONDITIONS OF MINIMUM; 11.4 EFFICIENCY; 11.5 DIRECT SUPPLY
  • 11.6 OPTIMIZATION11.7 REAL PADS; 11.8 COMPENSATED SUPPLY; 11.9 OPTIMIZATION; 11.10 OTHER TYPES OF COMPENSATING ELEMENTS; 11.11 REAL PADS; REFERENCES; Chapter 12. THERMAL FLOW; 12.1 INTRODUCTION; 12.2 TEMPERATURES IN THE BEARING; 12.3 SUPPLY PIPELINE; 12.4 COMPENSATING ELEMENTS; 12.5 PUMP; 12.6 COOLING PIPELINES; 12.7 SELF-COOLING CAPILLARY TUBE; 12.8 VISCOSITY AND TEMPERATURE; REFERENCES; Chapter 13. EXPERIMENTAL TESTS; 13.1 INTRODUCTION; 13.2 Hydrostatic systems; 13.3 EXPERIMENTAL RIGS; REFERENCES; Chapter 14. APPLICATIONS; 14.1 INTRODUCTION; 14.2 MACHINE TOOLS; 14.3 LARGE TILTING PADS

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