Parul Keshav
National Institute of Technology (NIT), Srinagar
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Kethavath Srinath
Osmania University (OU), Hyderabad
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8 Other formulas that you can solve using the same Inputs

Efficiency of screw jack when screw friction as well as collar friction considered
Efficiency =(Weight*tan(Helix Angle)*Mean diameter of Screw)/((Weight of Load*tan(Helix Angle+Limiting angle of friction)*Mean diameter of Screw)+(Coefficient of friction for collar*Weight of Load*Mean radius of collar)) GO
Coefficient of Friction at Collar According to Uniform Pressure Theory is Given
Coefficient of friction for collar=(3*Collar Friction Torque*((outer diameter of the collar^2)+(inner diameter of the collar^2)))/(Force*((outer diameter of the collar^3)+(inner diameter of the collar^3))) GO
Collar Friction Torque According to Uniform Pressure Theory
Collar Friction Torque=(Coefficient of friction for collar*Force*((outer diameter of the collar^3)+(inner diameter of the collar^3)))/(3*((outer diameter of the collar^2)+(inner diameter of the collar^2))) GO
Total torque required to overcome friction in rotating a screw
Torque=(Weight of Load*tan(Helix Angle+Limiting angle of friction)*Mean diameter of Screw/2)+(Coefficient of friction for collar*Weight of Load*Mean radius of collar) GO
Coefficient of Friction at Collar According to Uniform Wear Theory is Given
Coefficient of friction for collar=(4*Collar Friction Torque)/(Force*((outer diameter of the collar)+(inner diameter of the collar))) GO
Load When Collar Friction Torque According to Uniform Wear Theory is Given
Force=(4*Collar Friction Torque)/(Coefficient of friction for collar*((outer diameter of the collar)+(inner diameter of the collar))) GO
Collar Friction Torque According to Uniform Wear Theory
Collar Friction Torque=Coefficient of friction for collar*Force*(Outer radius of collar+Inner radius of collar)/2 GO
Torque required to overcome friction at collar
Torque=Coefficient of friction for collar*Weight of Load*Mean radius of collar GO

11 Other formulas that calculate the same Output

Load When Torque Required in Lifting a Load with Acme Screw Thread is Given
Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction*sec((14.5*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((14.5*pi/180))*tan(Helix Angle*pi/180)))) GO
Load When Torque Required in Lifting a Load with Trapezoidal Screw Thread is Given
Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction*sec((15*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((15*pi/180))*tan(Helix Angle*pi/180)))) GO
Load When Effort Required in Lifting a Load with Acme Screw Thread is Given
Force=Effort/((Coefficient of Friction*sec((14.5*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((14.5*pi/180))*tan(Helix Angle*pi/180))) GO
Load When Effort Required in Lifting a Load with Trapezoidal Screw Thread is Given
Force=Effort/((Coefficient of Friction*sec((15*pi/180))+tan(Helix Angle))/(1-Coefficient of Friction*sec((15*pi/180))*tan(Helix Angle))) GO
Load When Torque Required in Lowering a Load is Given
Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction-tan(Helix Angle))/(1+Coefficient of Friction*tan(Helix Angle)))) GO
Load When Torque is Given
Force=(2*Torque*((Coefficient of Friction+tan(Helix Angle))/(1-Coefficient of Friction*tan(Helix Angle))))/Mean diameter of screw GO
Load When Effort Required in Lowering Load is Given
Force=Effort/((Coefficient of Friction-tan(Helix Angle))/(1+Coefficient of Friction*tan(Helix Angle))) GO
Load When Effort in Lifting is Given
Force=Effort/((Coefficient of Friction+tan(Helix Angle))/(1-Coefficient of Friction*tan(Helix Angle))) GO
Netload on the brake for rope brake dynamometer
Force=(Dead load-Spring balance reading) GO
Load lifted if effort and mechanical advantage is known
Force=Mechanical advantage*Effort GO
Load on the brass/steel
Force=Stress*Area GO

Load When Collar Friction Torque According to Uniform Pressure Theory is Given Formula

Force=(3*Collar Friction Torque*((outer diameter of the collar^2)+(inner diameter of the collar^2)))/(Coefficient of friction for collar*((outer diameter of the collar^3)+(inner diameter of the collar^3)))
F=(3*T <sub>c*((D<sub>o^2)+(D<sub>i^2)))/(μ*((D<sub>o^3)+(D<sub>i^3)))
More formulas
Collar Friction Torque According to Uniform Pressure Theory GO
Coefficient of Friction at Collar According to Uniform Pressure Theory is Given GO
Load When Collar Friction Torque According to Uniform Wear Theory is Given GO
Coefficient of Friction at Collar According to Uniform Wear Theory is Given GO
Collar Friction Torque According to Uniform Wear Theory GO

what is Load in collar friction torque?

it is the load which is acting on the cup.The cup remains stationary under the action of the load W, while the collar that is integral with the screw rotates when the load is being raised or lowered.Therefore, there is relative motion between the cup and the collar at the annular interface from diameter Di to Do.

How to Calculate Load When Collar Friction Torque According to Uniform Pressure Theory is Given?

Load When Collar Friction Torque According to Uniform Pressure Theory is Given calculator uses Force=(3*Collar Friction Torque*((outer diameter of the collar^2)+(inner diameter of the collar^2)))/(Coefficient of friction for collar*((outer diameter of the collar^3)+(inner diameter of the collar^3))) to calculate the Force, Load When Collar Friction Torque According to Uniform Pressure Theory is Given is the load which is acting on the cup. Force and is denoted by F symbol.

How to calculate Load When Collar Friction Torque According to Uniform Pressure Theory is Given using this online calculator? To use this online calculator for Load When Collar Friction Torque According to Uniform Pressure Theory is Given, enter Collar Friction Torque (T c), outer diameter of the collar (Do), inner diameter of the collar (Di) and Coefficient of friction for collar (μ) and hit the calculate button. Here is how the Load When Collar Friction Torque According to Uniform Pressure Theory is Given calculation can be explained with given input values -> 60 = (3*0.01*((0.001^2)+(0.001^2)))/(0.5*((0.001^3)+(0.001^3))).

FAQ

What is Load When Collar Friction Torque According to Uniform Pressure Theory is Given?
Load When Collar Friction Torque According to Uniform Pressure Theory is Given is the load which is acting on the cup and is represented as F=(3*T c*((Do^2)+(Di^2)))/(μ*((Do^3)+(Di^3))) or Force=(3*Collar Friction Torque*((outer diameter of the collar^2)+(inner diameter of the collar^2)))/(Coefficient of friction for collar*((outer diameter of the collar^3)+(inner diameter of the collar^3))). Collar Friction Torque is the additional torque required to account for the friction between Collar and Load, outer diameter of the collar is the actual outer diameter of the collar, inner diameter of the collar is the actual inner diameter of the collar and Coefficient of friction for collar is the ratio defining the force that resists the motion of one body in relation to another body in contact with it.
How to calculate Load When Collar Friction Torque According to Uniform Pressure Theory is Given?
Load When Collar Friction Torque According to Uniform Pressure Theory is Given is the load which is acting on the cup is calculated using Force=(3*Collar Friction Torque*((outer diameter of the collar^2)+(inner diameter of the collar^2)))/(Coefficient of friction for collar*((outer diameter of the collar^3)+(inner diameter of the collar^3))). To calculate Load When Collar Friction Torque According to Uniform Pressure Theory is Given, you need Collar Friction Torque (T c), outer diameter of the collar (Do), inner diameter of the collar (Di) and Coefficient of friction for collar (μ). With our tool, you need to enter the respective value for Collar Friction Torque, outer diameter of the collar, inner diameter of the collar and Coefficient of friction for collar 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 Force?
In this formula, Force uses Collar Friction Torque, outer diameter of the collar, inner diameter of the collar and Coefficient of friction for collar. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Force=(Dead load-Spring balance reading)
  • Force=Stress*Area
  • Force=Mechanical advantage*Effort
  • Force=Effort/((Coefficient of Friction+tan(Helix Angle))/(1-Coefficient of Friction*tan(Helix Angle)))
  • Force=(2*Torque*((Coefficient of Friction+tan(Helix Angle))/(1-Coefficient of Friction*tan(Helix Angle))))/Mean diameter of screw
  • Force=Effort/((Coefficient of Friction-tan(Helix Angle))/(1+Coefficient of Friction*tan(Helix Angle)))
  • Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction-tan(Helix Angle))/(1+Coefficient of Friction*tan(Helix Angle))))
  • Force=Effort/((Coefficient of Friction*sec((15*pi/180))+tan(Helix Angle))/(1-Coefficient of Friction*sec((15*pi/180))*tan(Helix Angle)))
  • Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction*sec((15*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((15*pi/180))*tan(Helix Angle*pi/180))))
  • Force=Torque/(0.5*Mean diameter of screw*((Coefficient of Friction*sec((14.5*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((14.5*pi/180))*tan(Helix Angle*pi/180))))
  • Force=Effort/((Coefficient of Friction*sec((14.5*pi/180))+tan(Helix Angle*pi/180))/(1-Coefficient of Friction*sec((14.5*pi/180))*tan(Helix Angle*pi/180)))
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