Ball and Roller Bearings Theory, Design and Application,9780471984528

Ball and Roller Bearings Theory, Design and Application

by ; ; ;
Edition: 3rd
ISBN13: 9780471984528
ISBN10: 0471984523
Format: Hardcover
Pub. Date: 1999-03-12
Publisher(s): WILEY
List Price: $468.20

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Summary

This book is the third edition of the standard work for all engineers concerned with rolling bearings - in design and development; in production and operation; in maintenance and repair; in purchasing and materials management. Fully revised, features new to this edition include: * coverage of the new 'adjusted life' calculation, which takes into account the endurance strength of rolling bearings in relation to factors such as the cleanliness of the lubricant and the design of the bearing housing using the flow of force * expanded chapter on lubrication The information in this book will help bearing engineers make real-life improvements to the capacity and operational reliability of bearings in vehicles, machines, equipment and plants, saving on both time and costs. This book is an essential reference to the fundamental correlations of bearing engineering, and to all aspects of bearing design and technology.

Author Biography

Johannes Brändlein is the author of Ball and Roller Bearings: Theory, Design and Application, 3rd Edition, published by Wiley.

Paul Eschmann is the author of Ball and Roller Bearings: Theory, Design and Application, 3rd Edition, published by Wiley.

Ludwig Hasbargen is the author of Ball and Roller Bearings: Theory, Design and Application, 3rd Edition, published by Wiley.

Karl Weigand is the author of Ball and Roller Bearings: Theory, Design and Application, 3rd Edition, published by Wiley.

Table of Contents

Preface xi
General Fundamentals
1(76)
Rolling Bearing Types
1(34)
Radial ball bearings
2(11)
Radial roller bearings
13(13)
Thrust ball bearings
26(4)
Roller thrust bearings
30(2)
Special bearings
32(3)
Materials and Heat Treatment
35(18)
Rings and rolling elements
35(15)
Cage materials
50(2)
Seal materials
52(1)
Boundary Dimensions
53(4)
Tolerances and Methods of Checking
57(13)
Rolling bearings of normal precision
57(1)
Rolling bearings of increased precision
58(1)
Methods of checking
59(11)
Bearing Clearance
70(1)
Code Numbers of Rolling Bearings
71(6)
Principles of Bearing Calculations
77(66)
Geometry of Rolling Bearings
77(15)
Point contact and line contact
78(2)
Curvature ratio
80(1)
Contact angle
81(7)
Clearance radial to axial conversion
88(2)
Tilting angle
90(2)
Kinematics
92(8)
Speeds of cage and rolling elements
92(3)
Cycling conditions
95(2)
Rolling motion and rolling contact friction
97(3)
Elastic Deformation and Contact Pressure
100(23)
Hertz's theory
101(6)
Elastic deformation
107(5)
Size of contact area
112(5)
Maximum contact pressure
117(5)
Subsurface stresses
122(1)
Load Distribution
123(13)
General case
124(5)
Special cases
129(7)
Elasticity
136(7)
Radial elasticity
137(2)
Axial elasticity
139(1)
Comparing elasticities
140(3)
Load-Carrying Capacity and Service Life
143(70)
Static Stressing
144(8)
Plastic deformation
144(2)
Admissible static loading of a rolling element
146(1)
Static load rating C0
147(3)
Equivalent static load P0
150(1)
Index fs of static stressing
151(1)
Dynamic Stressing
152(6)
Material fatigue and failure probability
152(4)
Classical fatigue theory
156(1)
Fatigue life
157(1)
Dynamic Load-Carrying Capacity
158(9)
Nominal fatigue life
158(1)
Dynamic load rating C
159(8)
Equivalent Dynamic Load P
167(11)
Constant combined load
168(6)
Variable load and speed
174(3)
Equivalent dynamic load at slewing motion
177(1)
Dimensioning of Dynamically Stressed Bearings
178(24)
Load conditions
179(5)
Calculating FL
184(2)
Using fL as a guide to dimensioning
186(1)
Attainable life and endurance strength
186(5)
Adjusted life calculation
191(11)
Axially Loaded Cylindrical Roller Bearings
202(3)
Axial load-carrying capacity with hydrodynamic lubrication and mixed friction
203(2)
Equivalent dynamic load of axially loaded cylindrical roller bearings
205(1)
Wear and Service Life
205(8)
Wear of rolling bearings
206(1)
Extending wear life and service life
207(4)
Service life and operational safety
211(2)
Friction, Temperature and Lubrication
213(78)
Friction
213(11)
Rolling contact friction
214(1)
Sliding friction
215(1)
Lubricant friction
216(1)
Frictional moment
217(1)
Calculating the frictional moment
218(6)
Temperature
224(4)
Operating temperature
225(3)
Temperature difference between inner and outer rings
228(1)
principles of Lubrication
228(10)
Lubricant properties
229(1)
Hydrodynamic lubrication
230(2)
Elastohydrodynamic lubrication
232(2)
Lubricating film with grease lubrication
234(1)
Lubrication with dry lubricants
235(2)
Surface treatments and special materials
237(1)
Lubrication Systems
238(8)
Grease lubrication
238(1)
Oil lubrication
238(1)
Dry lubrication
239(1)
Selecting a lubrication system
239(1)
Some examples
240(6)
Selecting a Lubricant
246(15)
Lubricating greases
247(9)
Lubricating oils
256(2)
Dry lubricants
258(3)
Lubricant Supply
261(30)
Grease supply
261(14)
Oil supply
275(12)
Dry lubricant application
287(4)
Principles of Bearing Design
291(48)
Arrangement of the Bearings
291(5)
Locating and floating bearings
291(2)
Adjustable bearing arrangement
293(2)
Floating bearing arrangement
295(1)
Direction and Flow of Force
296(2)
Permissible Speeds
298(6)
Minimum Loading of Thrust Bearings and radial Bearings
304(2)
Compensation of Misalignment
306(2)
Running Noise
308(3)
Running Accuracy
311(5)
Fits
316(19)
Radial bearing seats
316(3)
Thrust bearing seats
319(2)
Tables of fits
321(2)
Stresses and strains due to tight fits
323(12)
Radial Clearance Before Mounting and During Operation
335(4)
Design of Bearing Locations
339(80)
Fixing the Bearing Rings
339(14)
Fixing directions
339(3)
Fixing methods
342(11)
Abutment Dimensions (DIN 5418)
353(3)
Fillets for shaft and housing
353(1)
Shoulder heights of shaft and housing
353(1)
Cylindrical roller bearings
353(1)
Tapered roller bearings and spherical roller thrust bearings
353(3)
Bearings with a circular groove and snap ring
356(1)
Design of Bearing Mating Components and Housings
356(23)
Effect of elastic housings on bearing stress
357(5)
Location of the housing support points
362(4)
Tangential support of the housing body
366(5)
Radially supported housing body
371(3)
Inclined application of load to a housing body
374(4)
Distorted rolling bearing housings
378(1)
Conclusion
378(1)
Sealing
379(15)
Non-rubbing seals
379(4)
Rubbing seals
383(3)
Sealing problems and their solution
386(8)
Mounting and Dismounting
394(25)
Mounting tools and equipment
394(7)
Adjusting the clearance during installation
401(4)
Dismounting tools and equipment
405(4)
Special mounting and dismounting methods
409(4)
Measuring equipment for bearing installation
413(6)
Rolling bearing Damage
419(40)
General Ideas
419(2)
Rolling Bearing Damage and Its Causes
421(26)
Fatigue
421(6)
Wear
427(1)
Corrosion damage
427(1)
Scuffing and Sliding marks
427(4)
Local indentations in the raceway
431(4)
Faulty mounting
435(5)
Defective installation methods
440(2)
Damage caused by poor lubrication]
442(2)
Faults in design
444(3)
Monitoring Rolling Bearings
447(12)
Criteria to monitor before failure
448(1)
Temperature measurements
448(3)
Vibration measurements
451(5)
Wear measurements
456(2)
When to dismount a damaged bearing
458(1)
Calculation and Design of Rolling Bearing Arrangements
459(138)
Column Crane
460(2)
Crane Runwheel
462(4)
Rope Sheave of a Pulley Block
466(4)
Pulley on a Belt Conveyor
470(5)
Conveyor Belt Idlers
475(5)
Support Rollers of a Rotary Furnace
480(6)
beater Mill
486(4)
Drive Shaft of a Two-bearing Vibrating Screen
490(4)
Bevel Gear/Spur Gear Transmission
494(6)
Edger Drive of a Heavy Plate Mill
500(6)
Finishing Stands of a Hot Strip Mill
506(5)
Blower
511(4)
High-Speed Screw Compressor
515(4)
Dryer Roll of a Paper Machine
519(6)
Electric Motor
525(5)
Traction Motor of an Electric Locomotive
530(7)
Axle Box Roller Bearings for Rail Vehicles
537(7)
Connecting Rods
544(6)
Automotive Front Wheels
550(7)
Automobile Five-Speed Gearbox
557(7)
Pinion Shaft of the Rear Axle Drive in a Passenger Car
564(5)
Marine Gear
569(5)
Ship's Propeller Thrust Block
574(4)
Ship's Line Shaft
578(4)
Rudder Shaft
582(2)
Lathe Spindles
584(5)
Bore Grinding Spindle
589(2)
Surface Grinder Motor
591(2)
High-Speed Wood Milling Cutter with Vertical Spindle
593(4)
Bibliography 597(22)
Index 619

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