Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw Solution

STEP 0: Pre-Calculation Summary
Formula Used
Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw))
W = Pli*(1-μ*sec((0.253))*tan(α))/(μ*sec((0.253))+tan(α))
This formula uses 2 Functions, 4 Variables
Functions Used
tan - The tangent of an angle is a trigonometric ratio of the length of the side opposite an angle to the length of the side adjacent to an angle in a right triangle., tan(Angle)
sec - Secant is a trigonometric function that is defined ratio of the hypotenuse to the shorter side adjacent to an acute angle (in a right-angled triangle); the reciprocal of a cosine., sec(Angle)
Variables Used
Load on screw - (Measured in Newton) - Load on screw is defined as the weight (force) of the body that is acted upon the screw threads.
Effort in lifting load - (Measured in Newton) - Effort in lifting load is the force required to overcome the resistance to lift the load.
Coefficient of friction at screw thread - Coefficient of friction at screw thread is the ratio defining the force that resists the motion of the nut in relation to the threads in contact with it.
Helix angle of screw - (Measured in Radian) - Helix angle of screw is defined as the angle subtended between this unwound circumferential line and the pitch of the helix.
STEP 1: Convert Input(s) to Base Unit
Effort in lifting load: 402 Newton --> 402 Newton No Conversion Required
Coefficient of friction at screw thread: 0.15 --> No Conversion Required
Helix angle of screw: 4.5 Degree --> 0.0785398163397301 Radian (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
W = Pli*(1-μ*sec((0.253))*tan(α))/(μ*sec((0.253))+tan(α)) --> 402*(1-0.15*sec((0.253))*tan(0.0785398163397301))/(0.15*sec((0.253))+tan(0.0785398163397301))
Evaluating ... ...
W = 1699.66065184581
STEP 3: Convert Result to Output's Unit
1699.66065184581 Newton --> No Conversion Required
FINAL ANSWER
1699.66065184581 1699.661 Newton <-- Load on screw
(Calculation completed in 00.019 seconds)

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18 Acme Thread Calculators

Helix Angle of Power Screw given Torque Required in Lifting Load with Acme Threaded Screw
Go Helix angle of screw = atan((2*Torque for lifting load-Load on screw*Mean Diameter of Power Screw*Coefficient of friction at screw thread*sec(0.253*pi/180))/(Load on screw*Mean Diameter of Power Screw+2*Torque for lifting load*Coefficient of friction at screw thread*sec(0.253*pi/180)))
Helix Angle of Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
Go Helix angle of screw = atan((Load on screw*Mean Diameter of Power Screw*Coefficient of friction at screw thread*sec(0.253)-2*Torque for lowering load)/(Load on screw*Mean Diameter of Power Screw+2*Torque for lowering load*Coefficient of friction at screw thread*sec(0.253)))
Coefficient of Friction of Power Screw given Torque Required in Lowering Load with Acme Thread
Go Coefficient of friction at screw thread = (2*Torque for lowering load+Load on screw*Mean Diameter of Power Screw*tan(Helix angle of screw))/(sec(0.253)*(Load on screw*Mean Diameter of Power Screw-2*Torque for lowering load*tan(Helix angle of screw)))
Coefficient of Friction of Power Screw given Torque Required in Lifting Load with Acme Thread
Go Coefficient of friction at screw thread = (2*Torque for lifting load-Load on screw*Mean Diameter of Power Screw*tan(Helix angle of screw))/(sec(0.253)*(Load on screw*Mean Diameter of Power Screw+2*Torque for lifting load*tan(Helix angle of screw)))
Torque Required in Lowering Load with Acme Threaded Power Screw
Go Torque for lowering load = 0.5*Mean Diameter of Power Screw*Load on screw*(((Coefficient of friction at screw thread*sec((0.253)))-tan(Helix angle of screw))/(1+(Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))))
Torque Required in Lifting Load with Acme Threaded Power Screw
Go Torque for lifting load = 0.5*Mean Diameter of Power Screw*Load on screw*((Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw))/(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw)))
Mean Diameter of Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
Go Mean Diameter of Power Screw = 2*Torque for lowering load*(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Load on screw*(Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw)))
Load on Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
Go Load on screw = 2*Torque for lowering load*(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Mean Diameter of Power Screw*(Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw)))
Load on Power Screw given Torque Required in Lifting Load with Acme Threaded Screw
Go Load on screw = 2*Torque for lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Mean Diameter of Power Screw*(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw)))
Efficiency of Acme Threaded Power Screw
Go Efficiency of power screw = tan(Helix angle of screw)*(1-Coefficient of friction at screw thread*tan(Helix angle of screw)*sec(0.253))/(Coefficient of friction at screw thread*sec(0.253)+tan(Helix angle of screw))
Coefficient of Friction of Power Screw given Effort in Lowering Load with Acme Threaded Screw
Go Coefficient of friction at screw thread = (Effort in lowering load+Load on screw*tan(Helix angle of screw))/(Load on screw*sec(0.253)-Effort in lowering load*sec(0.253)*tan(Helix angle of screw))
Coefficient of Friction of Power Screw given Effort in Moving Load with Acme Threaded Screw
Go Coefficient of friction at screw thread = (Effort in lifting load-Load on screw*tan(Helix angle of screw))/(sec(14.5*pi/180)*(Load on screw+Effort in lifting load*tan(Helix angle of screw)))
Helix Angle of Power Screw given Load and Coefficient of Friction
Go Helix angle of screw = atan((Load on screw*Coefficient of friction at screw thread*sec(0.253)-Effort in lowering load)/(Load on screw+(Effort in lowering load*Coefficient of friction at screw thread*sec(0.253))))
Helix Angle of Power Screw given Effort Required in Lifting Load with Acme Threaded Screw
Go Helix angle of screw = atan((Effort in lifting load-Load on screw*Coefficient of friction at screw thread*sec(0.253))/(Load on screw+Effort in lifting load*Coefficient of friction at screw thread*sec(0.253)))
Effort Required in Lowering Load with Acme Threaded Screw
Go Effort in lowering load = Load on screw*((Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw))/(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw)))
Effort Required in Lifting Load with Acme Threaded Screw
Go Effort in lifting load = Load on screw*((Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw))/(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw)))
Load on Power Screw given Effort Required in Lowering Load with Acme Threaded Screw
Go Load on screw = Effort in lowering load*(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw))
Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw
Go Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw))

Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw Formula

Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw))
W = Pli*(1-μ*sec((0.253))*tan(α))/(μ*sec((0.253))+tan(α))

Define Acme Thread Screw?

Acme screw threads are manufactured for assemblies that require the carrying of heavy loads. Acme screw threads were designed to replace the Square thread, which is difficult to manufacture. Chapter 6 grooving and threading

How to Calculate Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw?

Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw calculator uses Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw)) to calculate the Load on screw, Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw formula is defined as a heavy or a bulky object that requires effort to move or lift the load. The effort is an applied force to bring desired change to the position (push or lift) of the load. Load on screw is denoted by W symbol.

How to calculate Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw using this online calculator? To use this online calculator for Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw, enter Effort in lifting load (Pli), Coefficient of friction at screw thread (μ) & Helix angle of screw (α) and hit the calculate button. Here is how the Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw calculation can be explained with given input values -> 1699.661 = 402*(1-0.15*sec((0.253))*tan(0.0785398163397301))/(0.15*sec((0.253))+tan(0.0785398163397301)).

FAQ

What is Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw?
Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw formula is defined as a heavy or a bulky object that requires effort to move or lift the load. The effort is an applied force to bring desired change to the position (push or lift) of the load and is represented as W = Pli*(1-μ*sec((0.253))*tan(α))/(μ*sec((0.253))+tan(α)) or Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw)). Effort in lifting load is the force required to overcome the resistance to lift the load, Coefficient of friction at screw thread is the ratio defining the force that resists the motion of the nut in relation to the threads in contact with it & Helix angle of screw is defined as the angle subtended between this unwound circumferential line and the pitch of the helix.
How to calculate Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw?
Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw formula is defined as a heavy or a bulky object that requires effort to move or lift the load. The effort is an applied force to bring desired change to the position (push or lift) of the load is calculated using Load on screw = Effort in lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw)). To calculate Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw, you need Effort in lifting load (Pli), Coefficient of friction at screw thread (μ) & Helix angle of screw (α). With our tool, you need to enter the respective value for Effort in lifting load, Coefficient of friction at screw thread & Helix angle of screw 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 Load on screw?
In this formula, Load on screw uses Effort in lifting load, Coefficient of friction at screw thread & Helix angle of screw. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Load on screw = 2*Torque for lifting load*(1-Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Mean Diameter of Power Screw*(Coefficient of friction at screw thread*sec((0.253))+tan(Helix angle of screw)))
  • Load on screw = 2*Torque for lowering load*(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Mean Diameter of Power Screw*(Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw)))
  • Load on screw = Effort in lowering load*(1+Coefficient of friction at screw thread*sec((0.253))*tan(Helix angle of screw))/(Coefficient of friction at screw thread*sec((0.253))-tan(Helix angle of screw))
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