1. What is Factor Y2 of Self Aligning Ball Bearing?

Factor Y2 of Self Aligning Ball Bearing is a coefficient used in the calculation of equivalent dynamic load for bearings when the ratio of axial load to radial load (Fa/Fr) is greater than the eccentricity factor e. It helps determine the appropriate load capacity and service life of self-aligning ball bearings.

2. How Does the Calculator Work?

The calculator uses the Factor Y2 formula:

Where:

• \( Y2 \) — Factor Y2 of bearing
• \( Peq_{sa} \) — Equivalent dynamic load on self-aligning bearing (N)
• \( Fr \) — Radial load acting on bearing (N)
• \( Fa \) — Axial or thrust load acting on bearing (N)

Explanation: This formula calculates the Y2 factor which is essential for determining the equivalent dynamic load capacity of self-aligning ball bearings under combined loading conditions.

3. Importance of Factor Y2 Calculation

Details: Accurate calculation of Factor Y2 is crucial for proper bearing selection, determining load capacity, predicting service life, and ensuring optimal performance of self-aligning ball bearings in mechanical systems.

4. Using the Calculator

Tips: Enter equivalent dynamic load in Newtons, radial load in Newtons, and axial load in Newtons. All values must be valid (positive values, axial load > 0).

5. Frequently Asked Questions (FAQ)

Q1: When is Factor Y2 used in bearing calculations?
A: Factor Y2 is used specifically for self-aligning ball bearings when the ratio of axial load to radial load (Fa/Fr) exceeds the eccentricity factor e.

Q2: What is the significance of the 0.65 coefficient in the formula?
A: The 0.65 coefficient represents the radial load factor that accounts for the specific load distribution characteristics of self-aligning ball bearings.

Q3: How does Factor Y2 affect bearing selection?
A: Factor Y2 helps determine the equivalent dynamic load, which is essential for selecting bearings with adequate load capacity and predicting their service life.

Q4: Are there limitations to this calculation?
A: This calculation is specifically valid for self-aligning ball bearings and applies only when Fa/Fr > e. Different bearing types may require different calculation methods.

Q5: How accurate is this calculation for real-world applications?
A: While this provides a good estimation, actual bearing performance may vary based on operating conditions, lubrication, alignment, and other environmental factors.