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The bearing is subjected to a radial load of 4000N. Expected life for 90% bearings is 9000h and shaft is rotating at 1500rpm. Calculate the dynamic load capacity.
- a)42.21kN
- b)37.29kN
- c)26.33kN
- d)35.22kN
Correct answer is option 'B'. Can you explain this answer?
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Verified Answer
The bearing is subjected to a radial load of 4000N. Expected life for ...
Explanation: C=4000x(810)⅓.
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The bearing is subjected to a radial load of 4000N. Expected life for ...
Given:
- Radial load on the bearing = 4000 N
- Expected life for 90% of bearings = 9000 hours
- Shaft rotation speed = 1500 rpm
To find:
Dynamic load capacity of the bearing
Solution:
The dynamic load capacity of a bearing is the maximum load that a bearing can withstand without premature failure, and it is typically specified by the manufacturer.
The dynamic load capacity can be calculated using the following formula:
Dynamic Load Capacity = (C/P)^p * L
Where,
- C is the basic dynamic load rating of the bearing
- P is the equivalent dynamic load on the bearing
- L is the rated life of the bearing at a given reliability
- p is a constant depending on the type of bearing (typically between 3 and 10)
Step 1: Calculate the equivalent dynamic load on the bearing (P)
The equivalent dynamic load on the bearing can be calculated using the following formula:
P = X * Fr + Y * Fa
Where,
- X and Y are the factors that depend on the type of load and bearing arrangement
- Fr is the radial load on the bearing
- Fa is the axial load on the bearing (assumed to be zero in this case)
Since the bearing is subjected to only a radial load, the axial load is zero. Therefore, Fa = 0.
The factors X and Y can be determined from bearing tables provided by the manufacturer. For simplicity, let's assume X = 1 and Y = 0.
Hence, P = X * Fr + Y * Fa = 1 * 4000 N + 0 * 0 N = 4000 N
Step 2: Calculate the dynamic load capacity of the bearing
From the given information, we know that the expected life for 90% of bearings is 9000 hours. Hence, the rated life (L) = 9000 hours.
The constant p depends on the type of bearing and is typically between 3 and 10. Let's assume p = 3 for this case.
Using the formula for dynamic load capacity, we can calculate:
Dynamic Load Capacity = (C/P)^p * L
Since the dynamic load capacity is not given, we need to solve the equation to find C.
C = (Dynamic Load Capacity / (L * (1/P)^p))^(1/p)
Substituting the given values, we have:
C = (4000 N / (9000 hours * (1/3)^3))^(1/3)
C = (4000 N / (9000 * (1/27)))^(1/3)
C = (4000 N / (9000 * 27))^(1/3)
C = (4000 N / 243000)^(1/3)
C ≈ 26.33 kN
Therefore, the dynamic load capacity of the bearing is approximately 26.33 kN.
Conclusion:
The correct option is 'c) 26.33 kN'.
- Radial load on the bearing = 4000 N
- Expected life for 90% of bearings = 9000 hours
- Shaft rotation speed = 1500 rpm
To find:
Dynamic load capacity of the bearing
Solution:
The dynamic load capacity of a bearing is the maximum load that a bearing can withstand without premature failure, and it is typically specified by the manufacturer.
The dynamic load capacity can be calculated using the following formula:
Dynamic Load Capacity = (C/P)^p * L
Where,
- C is the basic dynamic load rating of the bearing
- P is the equivalent dynamic load on the bearing
- L is the rated life of the bearing at a given reliability
- p is a constant depending on the type of bearing (typically between 3 and 10)
Step 1: Calculate the equivalent dynamic load on the bearing (P)
The equivalent dynamic load on the bearing can be calculated using the following formula:
P = X * Fr + Y * Fa
Where,
- X and Y are the factors that depend on the type of load and bearing arrangement
- Fr is the radial load on the bearing
- Fa is the axial load on the bearing (assumed to be zero in this case)
Since the bearing is subjected to only a radial load, the axial load is zero. Therefore, Fa = 0.
The factors X and Y can be determined from bearing tables provided by the manufacturer. For simplicity, let's assume X = 1 and Y = 0.
Hence, P = X * Fr + Y * Fa = 1 * 4000 N + 0 * 0 N = 4000 N
Step 2: Calculate the dynamic load capacity of the bearing
From the given information, we know that the expected life for 90% of bearings is 9000 hours. Hence, the rated life (L) = 9000 hours.
The constant p depends on the type of bearing and is typically between 3 and 10. Let's assume p = 3 for this case.
Using the formula for dynamic load capacity, we can calculate:
Dynamic Load Capacity = (C/P)^p * L
Since the dynamic load capacity is not given, we need to solve the equation to find C.
C = (Dynamic Load Capacity / (L * (1/P)^p))^(1/p)
Substituting the given values, we have:
C = (4000 N / (9000 hours * (1/3)^3))^(1/3)
C = (4000 N / (9000 * (1/27)))^(1/3)
C = (4000 N / (9000 * 27))^(1/3)
C = (4000 N / 243000)^(1/3)
C ≈ 26.33 kN
Therefore, the dynamic load capacity of the bearing is approximately 26.33 kN.
Conclusion:
The correct option is 'c) 26.33 kN'.
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The bearing is subjected to a radial load of 4000N. Expected life for ...
Explanation: C=4000x(810)⅓.
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