Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing Solution

STEP 0: Pre-Calculation Summary
Formula Used
Dynamic Viscosity of Oil = 10^((Constant a for Viscosity Relationship+(Constant b for Viscosity Relationship/Absolute Temperature of Oil in Kelvin)))
μo = 10^((A+(B/Tabs)))
This formula uses 4 Variables
Variables Used
Dynamic Viscosity of Oil - (Measured in Centipoise) - Dynamic viscosity of oil is the resistance to movement of one layer of fluid over another.
Constant a for Viscosity Relationship - Constant a for viscosity relationship is the constant used in the viscosity-temperature relationship.
Constant b for Viscosity Relationship - Constant b for viscosity relationship is the constant used in the viscosity-temperature relationship.
Absolute Temperature of Oil in Kelvin - Absolute temperature of oil in Kelvin is the temperature measurement of the oil using the Kelvin scale where zero is absolute zero.
STEP 1: Convert Input(s) to Base Unit
Constant a for Viscosity Relationship: -6.95 --> No Conversion Required
Constant b for Viscosity Relationship: 3180 --> No Conversion Required
Absolute Temperature of Oil in Kelvin: 330 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
μo = 10^((A+(B/Tabs))) --> 10^(((-6.95)+(3180/330)))
Evaluating ... ...
μo = 485.6950041643
STEP 3: Convert Result to Output's Unit
0.4856950041643 Pascal Second -->485.6950041643 Centipoise (Check conversion ​here)
FINAL ANSWER
485.6950041643 485.695 Centipoise <-- Dynamic Viscosity of Oil
(Calculation completed in 00.004 seconds)

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National Institute of Technology (NIT), Tiruchirapalli
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Viscosity and Density of Lubricant Calculators

Area of moving plate of sliding contact bearing given absolute viscosity
​ LaTeX ​ Go Area of Moving Plate on Oil = Tangential force on moving plate*Oil Film Thickness/(Dynamic Viscosity of Oil*Velocity of Moving Plate on Oil)
Velocity of Moving Plate in Terms of Absolute Viscosity
​ LaTeX ​ Go Velocity of Moving Plate on Oil = Tangential force on moving plate*Oil Film Thickness/(Dynamic Viscosity of Oil*Area of Moving Plate on Oil)
Absolute Viscosity of Oil in Terms of Tangential Force
​ LaTeX ​ Go Dynamic Viscosity of Oil = Tangential force on moving plate*Oil Film Thickness/(Area of Moving Plate on Oil*Velocity of Moving Plate on Oil)
Kinematic Viscosity in Centi-Stokes in Terms of Viscosity in Saybolt's Unversal Seconds
​ LaTeX ​ Go Kinematic Viscosity in Centi-Stokes = (0.22*Viscosity in Saybolt Universal Seconds)-(180/Viscosity in Saybolt Universal Seconds)

Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing Formula

​LaTeX ​Go
Dynamic Viscosity of Oil = 10^((Constant a for Viscosity Relationship+(Constant b for Viscosity Relationship/Absolute Temperature of Oil in Kelvin)))
μo = 10^((A+(B/Tabs)))

What is Sliding Contact Bearing?

The sliding contact bearings in which the sliding action is along the circumference of a circle or an arc of a circle and carrying radial loads are known as journal or sleeve bearings.

How to Calculate Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing?

Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing calculator uses Dynamic Viscosity of Oil = 10^((Constant a for Viscosity Relationship+(Constant b for Viscosity Relationship/Absolute Temperature of Oil in Kelvin))) to calculate the Dynamic Viscosity of Oil, Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing formula is defined as a relationship that describes how the viscosity of a lubricant changes with absolute temperature, which is crucial for optimizing the performance of sliding contact bearings. Dynamic Viscosity of Oil is denoted by μo symbol.

How to calculate Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing using this online calculator? To use this online calculator for Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing, enter Constant a for Viscosity Relationship (A), Constant b for Viscosity Relationship (B) & Absolute Temperature of Oil in Kelvin (Tabs) and hit the calculate button. Here is how the Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing calculation can be explained with given input values -> 485695 = 10^(((-6.95)+(3180/330))).

FAQ

What is Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing?
Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing formula is defined as a relationship that describes how the viscosity of a lubricant changes with absolute temperature, which is crucial for optimizing the performance of sliding contact bearings and is represented as μo = 10^((A+(B/Tabs))) or Dynamic Viscosity of Oil = 10^((Constant a for Viscosity Relationship+(Constant b for Viscosity Relationship/Absolute Temperature of Oil in Kelvin))). Constant a for viscosity relationship is the constant used in the viscosity-temperature relationship, Constant b for viscosity relationship is the constant used in the viscosity-temperature relationship & Absolute temperature of oil in Kelvin is the temperature measurement of the oil using the Kelvin scale where zero is absolute zero.
How to calculate Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing?
Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing formula is defined as a relationship that describes how the viscosity of a lubricant changes with absolute temperature, which is crucial for optimizing the performance of sliding contact bearings is calculated using Dynamic Viscosity of Oil = 10^((Constant a for Viscosity Relationship+(Constant b for Viscosity Relationship/Absolute Temperature of Oil in Kelvin))). To calculate Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing, you need Constant a for Viscosity Relationship (A), Constant b for Viscosity Relationship (B) & Absolute Temperature of Oil in Kelvin (Tabs). With our tool, you need to enter the respective value for Constant a for Viscosity Relationship, Constant b for Viscosity Relationship & Absolute Temperature of Oil in Kelvin and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Dynamic Viscosity of Oil?
In this formula, Dynamic Viscosity of Oil uses Constant a for Viscosity Relationship, Constant b for Viscosity Relationship & Absolute Temperature of Oil in Kelvin. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Dynamic Viscosity of Oil = Tangential force on moving plate*Oil Film Thickness/(Area of Moving Plate on Oil*Velocity of Moving Plate on Oil)
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