Download Design of Rolling Contact Bearing PDF | Free Design of Rolling Contact Bearing PDF

Related PDFs (25)

Power Screws

Formulas : 103 Size : 857 kb

Approximate Methods of Hypersonic Inviscid Flowfields

Formulas : 11 Size : 320 kb

Boundary Layer Equations for Hypersonic Flow

Formulas : 20 Size : 395 kb

Computational Fluid Dynamic Solutions

Formulas : 11 Size : 301 kb

Design of Belt Drives

Formulas : 106 Size : 887 kb

Design of Curved Beams

Formulas : 20 Size : 332 kb

Design of Pressure Vessels

Formulas : 52 Size : 567 kb

Elements of Kinetic Theory

Formulas : 15 Size : 341 kb

Entropy Generation

Formulas : 16 Size : 393 kb

Fluid Force

Formulas : 14 Size : 393 kb

Fluid in Motion

Formulas : 17 Size : 422 kb

Hypersonic Equivalence Principle and Blast Wave Theory

Formulas : 16 Size : 370 kb

Hypersonic Flow and Disturbances

Formulas : 17 Size : 0 kb

Hypersonic Flow Parameters

Formulas : 7 Size : 273 kb

Ideal Gas

Formulas : 8 Size : 281 kb

Liquid Jet

Formulas : 12 Size : 308 kb

Manufacturing and Purchase Model

Formulas : 12 Size : 279 kb

Newtonian Flow

Formulas : 14 Size : 355 kb

Pressure Relations

Formulas : 30 Size : 469 kb

Refrigeration and Air Conditioning

Formulas : 12 Size : 347 kb

Strain

Formulas : 14 Size : 386 kb

Stress and Strain

Formulas : 20 Size : 451 kb

Thermal Efficiency

Formulas : 17 Size : 356 kb

Thermal Parameters

Formulas : 17 Size : 418 kb

Time Estimation

Formulas : 16 Size : 330 kb

Contents of the Design of Rolling Contact Bearing PDF

List of 86 Design of Rolling Contact Bearing Formulas

Angle between adjacent Balls of Ball Bearing

Axial Load for Back to Back Bearings when Fa by Fr is greater than 1.14

Axial Load for Back to Back Bearings when Fa by Fr is less than or equal to 1.14

Axial Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14

Axial Thrust Load on Bearing given Equivalent Dynamic Load

Axial Thrust Load on Bearing given Race Rotation Factor

Axial Thrust Load on Bearing given Thrust Factor

Axial Thrust Load on Self Aligning Ball Bearing when Fa by Fr is greater than e

Axial Thrust Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e

Axial Thrust Load on Spherical Roller Bearing when Fa by Fr is greater than e

Axial Thrust Load on Spherical Roller Bearing when Fa by Fr is less than or equal to e

Axial Thrust Load on Taper Roller Bearing when Fa by Fr is greater than e

Bore Diameter of Bearing

Coefficient of Friction of Roller Contact Bearing

Diameter of Ball of Bearing from Stribeck's Equation

Diameter of Ball of Bearing given Force required to produce Permanent Deformation in Ball

Dynamic Load Capacity for Ball Bearing

Dynamic Load Capacity for Bearing given Rated Bearing Life

Dynamic Load Capacity for Roller Bearing

Equivalent Dynamic Load for Bearing given Radial Factor

Equivalent Dynamic Load for Back to Back Bearings

Equivalent Dynamic Load for Back to Back Bearings when Fa by Fr is greater than 1.14

Equivalent Dynamic Load for Back to Back Bearings when Fa by Fr is less than or equal to 1.14

Equivalent Dynamic Load for Back to Back Bearings when subjected to Pure Radial Load

Equivalent Dynamic Load for Back to Back Bearings when subjected to Pure Thrust Load

Equivalent Dynamic Load for Ball Bearing

Equivalent Dynamic Load for Bearing given Rated Bearing Life

Equivalent Dynamic Load for Roller Bearing

Equivalent Dynamic Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14

Equivalent Dynamic Load on Self Aligning Ball Bearing when Fa by Fr is greater than e

Equivalent Dynamic Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e

Equivalent Dynamic Load on Spherical Roller Bearing when Fa by Fr is greater than e

Equivalent Dynamic Load on Spherical Roller Bearing when Fa by Fr is less than equal to e

Equivalent Dynamic Load on Taper Roller Bearing when Fa by Fr is greater than e

Factor Y1 of Self Aligning Ball Bearing when Fa by Fr is less than or equal to e

Factor Y1 of Spherical Roller Bearing when Fa by Fr is less than or equal to e

Factor Y2 of Self Aligning Ball Bearing when Fa by Fr is greater than e

Factor Y2 of Spherical Roller Bearing when Fa by Fr is greater than e

Force required to produce Permanent Deformation of Balls of Ball Bearing

Force required to produce Permanent Deformation of Balls of Ball Bearing given Static Load

Friction Moment on Roller Contact Bearing

K Factor for Ball Bearing from Stribeck's Equation

K Factor for Ball Bearing given Force required to produce Permanent Deformation of Balls

Load on Bearing given Moment on bearing

Median Life of Roller Contact Bearing

Minimum Axial Load on Thrust Ball Bearing

Minimum Load Factor for Thrust Ball Bearing

Nominal Life of Roller Contact Bearing

Number of Balls of Ball Bearing from Stribeck's Equation

Number of Balls of Ball Bearing given Angle between Balls

Number of Balls of Ball Bearing given Static Load

Number of Bearings required given Reliability

Race Rotation Factor for Bearing given Radial Factor

Race Rotation Factor of Roller Contact Bearing

Radial Factor of Bearing given Equivalent Dynamic Load

Radial Factor of Roller Contact Bearing

Radial Factor of Roller Contact Bearing given Race Rotation Factor

Radial Load for Back to Back Bearings when Fa by Fr greater than 1.14

Radial Load for Back to Back Bearings when Fa by Fr less than or equal to 1.14

Radial Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14

Radial Load of Bearing given Radial Factor

Radial Load on Bearing

Radial Load on Bearing given Race Rotation Factor

Radial Load on Self Aligning Ball Bearing when Fa by Fr greater than e

Radial Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e

Radial Load on Spherical Roller Bearing when Fa by Fr greater than e

Radial Load on Spherical Roller Bearing when Fa by Fr is less than equal to e

Radial Load on Taper Roller Bearing when Fa by Fr is greater than e

Rated Bearing Life in Hours

Rated Bearing Life in Million Revolutions for Ball Bearings

Rated Bearing Life in Million Revolutions for Roller Bearings

Rated Bearing Life in Million Revolutions given Bearing Speed

Rated Bearing Life in Million Revolutions given Dynamic Load Capacity

Rated Bearing Life in Million Revolutions given Median Life

Rated Bearing Life in Million Revolutions given Nominal Life

Reliability of Bearing

Reliability of Bearing given Number of Bearings

Reliability of Complete Bearing System

Rotational Speed of Bearing given Maximum Axial Load and Maximum Load Factor

Speed of Rotation of Bearing

Static Load on Ball of Ball Bearing from Stribeck's Equation

Static Load on Ball of Ball Bearing given Primary force

Thrust factor of Bearing

Thrust factor of Bearing given Race Rotation Factor

Thrust Factor on Bearing given Equivalent Dynamic Load

Train Wheel Diameter considering Bearing Life

Variables used in Design of Rolling Contact Bearing PDF

a Constant a of Bearing
A Minimum Load Factor
b Constant b of Bearing
C Dynamic Load Capacity of Bearing (Newton)
C_o Static Load on Bearing (Newton)
d Bore Diameter of Bearing (Millimeter)
D Train Wheel Diameter (Millimeter)
d_b Ball Diameter of a Bearing (Millimeter)
F Force on Ball Bearing (Newton)
F_a Axial or Thrust Load Acting on Bearing (Newton)
F_min Minimum Axial Load Thrust Bearing (Newton)
F_r Radial Load Acting on Bearing (Newton)
k K Factor (Newton per Square Millimeter)
L Corresponding Life of Bearing
L₁₀ Rated Bearing Life
L_10h Rated Bearing Life in Hours
L_10s Nominal Life in Millions of Kilometers
L₅₀ Median Life of Bearing
M_t Friction Moment on Bearing (Newton Millimeter)
N Speed of Bearing in RPM
N_b Number of Bearings
p Constant p of Bearing
P_b Equivalent Dynamic Load on Back to Back Bearing (Newton)
P_eq Equivalent Dynamic Load on Bearing (Newton)
P_s Equivalent dynamic load on singly bearing (Newton)
Pb_t Equivalent Dynamic Load on Taper Bearing (Newton)
Peq_sa Equivalent Dynamic Load on Self Aligning Bearing (Newton)
Peq_sp Equivalent Dynamic Load on Spherical Bearing (Newton)
R Reliability of Bearing
R_s Reliability of Bearing System
V Race-Rotation Factor
W Load Acting on Bearing (Newton)
X Radial Factor
Y Thrust Factor for Bearing
Y₁ Factor Y1 of Bearing
Y₂ Factor Y2 of Bearing
z Number of Balls in Bearing
β Angle between Balls of Bearing in Degrees (Degree)
μ Coefficient of Friction for Bearing

Constants, Functions and Measurements used in Design of Rolling Contact Bearing PDF

Constant: pi, 3.14159265358979323846264338327950288
Archimedes' constant
Constant: e, 2.71828182845904523536028747135266249
Napier's constant
Function: log10, log10(Number)
The common logarithm, also known as the base-10 logarithm or the decimal logarithm, is a mathematical function that is the inverse of the exponential function.
Function: sqrt, sqrt(Number)
A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.
Measurement: Length in Millimeter (mm)
Length Unit Conversion
Measurement: Force in Newton (N)
Force Unit Conversion
Measurement: Angle in Degree (°)
Angle Unit Conversion
Measurement: Torque in Newton Millimeter (N*mm)
Torque Unit Conversion
Measurement: Stress in Newton per Square Millimeter (N/mm²)
Stress Unit Conversion

Download Now!