Technical Info | Load Rating and Bearing Life

Available Bearings

DEEP GROOVE BALL BEARINGS
ANGULAR CONTACT BALL BEARINGS
DOUBLE ROW ANGULAR CONTACT BALL BEARINGS
SELF-ALIGNING BALL BEARINGS
TAPERED ROLLER BEARINGS(METRIC SERIES)
SPHERICAL ROLLER BEARINGS
PLANE THRUST BALL BEARINGS
NEEDLE ROLLER BEARINGS

Load Rating and Bearing Life (continued) __________________________________________________________________

< Back

Forward >

GENERAL FATIGUE LIFE CORRECTION FACTORS

The L₁₀ preload life of a bearing is normally adjusted as follows, according to real-world operating conditions:

L_na

a₁a₂ L₁₀

where:

L_na = adjusted bearing fatigue life

a₁ = Life correction factor for material and desired statistical reliability, the values for a₁ being given below:

Values for Life Correction Factor a₁

MATERIAL	STATISTICAL RELIABLITY (%)
MATERIAL	90	95	96	97	98	99
52100	1.00	.62	.53	.44	.33	.21
440C	.50	.31	.27	.22	.17	.11
DR/ES1	.8	.49	.42	.35	.27	.17

a₂ = Life correction factor for operating conditions. It has been empirically determined to have a value between 2.0 under ideal operating conditions and 0.2 where one or more of the following conditions may apply:

The lubricant film thickness between the raceways and the rolling elements is low
Bearing raceways are excessively misaligned
Oscillatory motion
Rotation speed of the bearing elements is very low
Contamination or water is present in the bearing

Since there are many factors that determine observed bearing life, the above figures should be used conservatively.

MAXIMUM STATIC LOAD C_o

When subjected to an excessive load or shock, rolling bearings may incur a permanent damage to the raceways, called brinelling. This occurs when the elastic limit of the raceway material is exceeded and will permanently effect the smooth rotation of the bearing.

The maximum static load rating of a bearing (C_o) is defined as that load which will produce a contact stress of 609,000 lbf /in² (428 kgf/mm²) between the rolling element (ball) and the raceway. The values of C_o are listed in the bearing tables for each individual bearing. Exceeding this value will damage the bearing.

EQUIVALENT DYNAMIC LOAD

In most cases, the actual load applied to a bearing is a combination of fluctuating radial and axial loads which cannot be directly used for fatigue life calculations. Instead, the Equivalent Load (P) is used. This represents the hypothetical load of constant magnitude, passing through the center of the bearing, that would give the actual observed bearing life when used in the fatigue life formula. It is an estimate, dependent on the initial ball contact angle α_o and the static capacity of the bearing C_o, as well as the actual load applied (F).

P = P_r + P_a

where:

P_r , P_a are equivalent radial and axial equivalent loads, calculated using the nomographs on the next pages.

Main Ball Bearing-SWC Navigation
About SWC || Corporate Email || Request Catalog || Testing Services ||
Technical Info || Sales Office || Available Bearings ||

Secondary Ball Bearing Navigation

Technical Contents || Bearings Overview || Material || Cages || Shields and Seals || Bearing Geometry ||
Tolerances || Lubrication || Load Rating and Bearing Life || Torque || Noise || Mounting and Fitting || Preload ||
Bearing Handing || Adhesive Practices || Assembly Characteristics || Bearing Subassemblies ||
Design Services || Mechanical Testing Laboratory || Useful Conversions ||