Allowable Static Thrust Load on Groove Calculator

✖Conversion factor is to account for change from metric units used in development of the formula.ⓘ Conversion Factor [C]			+10% -10%
✖The Shaft Diameter is defined as the diameter of the hole in the iron laminations that contains the shaft.ⓘ Shaft Diameter [D]			+10% -10%
✖Depth of groove is the perpendicular distance from a real or calculated reference plane defined by edges of two adjacent ribs to the lowest point in the groove.ⓘ Depth of Groove [D_g]			+10% -10%
✖Tensile yield strength of groove material is the stress that causes a material to lose its elastic behavior.ⓘ Tensile Yield Strength of Groove Material [σ_sy]			+10% -10%
✖Factor of Safety expresses how much stronger a system is than it needs to be for an intended load.ⓘ Factor of Safety [f_s]			+10% -10%
✖Reduction Factor is constant term used as factor for load calculation.ⓘ Reduction Factor [Φ]			+10% -10%

✖Allowable static thrust load on groove wall is the amount of measured force directed at and from a turning mechanism.ⓘ Allowable Static Thrust Load on Groove [F_tg]

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Allowable Static Thrust Load on Groove Solution

STEP 0: Pre-Calculation Summary

Formula Used

Allowable Static Thrust Load on Groove Wall = (Conversion Factor*Shaft Diameter*Depth of Groove*pi*Tensile Yield Strength of Groove Material)/(Factor of Safety*Reduction Factor)
F_tg = (C*D*D_g*pi*σ_sy)/(f_s*Φ)
This formula uses 1 Constants, 7 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Allowable Static Thrust Load on Groove Wall - (Measured in Newton) - Allowable static thrust load on groove wall is the amount of measured force directed at and from a turning mechanism.
Conversion Factor - Conversion factor is to account for change from metric units used in development of the formula.
Shaft Diameter - (Measured in Meter) - The Shaft Diameter is defined as the diameter of the hole in the iron laminations that contains the shaft.
Depth of Groove - (Measured in Meter) - Depth of groove is the perpendicular distance from a real or calculated reference plane defined by edges of two adjacent ribs to the lowest point in the groove.
Tensile Yield Strength of Groove Material - (Measured in Pascal) - Tensile yield strength of groove material is the stress that causes a material to lose its elastic behavior.
Factor of Safety - Factor of Safety expresses how much stronger a system is than it needs to be for an intended load.
Reduction Factor - Reduction Factor is constant term used as factor for load calculation.

STEP 1: Convert Input(s) to Base Unit

Conversion Factor: 0.11 --> No Conversion Required
Shaft Diameter: 3.6 Meter --> 3.6 Meter No Conversion Required
Depth of Groove: 3.8 Meter --> 3.8 Meter No Conversion Required
Tensile Yield Strength of Groove Material: 9 Pascal --> 9 Pascal No Conversion Required
Factor of Safety: 2.8 --> No Conversion Required
Reduction Factor: 0.85 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F_tg = (C*D*D_g*pi*σ_sy)/(f_s*Φ) --> (0.11*3.6*3.8*pi*9)/(2.8*0.85)

Evaluating ... ...

F_tg = 17.8769821958392

STEP 3: Convert Result to Output's Unit

17.8769821958392 Newton --> No Conversion Required

FINAL ANSWER

17.8769821958392 ≈ 17.87698 Newton <-- Allowable Static Thrust Load on Groove Wall

(Calculation completed in 00.020 seconds)

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< Load Capacities of Groove Calculators

Tensile Yield Strength of Groove Material given allowable Static Thrust Load on Groove

LaTeX Go Tensile Yield Strength of Groove Material = (Factor of Safety*Reduction Factor*Allowable Static Thrust Load on Groove Wall)/(Conversion Factor*Shaft Diameter*pi*Depth of Groove)

Shaft Diameter given allowable Static Thrust Load on Groove

LaTeX Go Shaft Diameter = (Allowable Static Thrust Load on Groove Wall*Factor of Safety*Reduction Factor)/(Conversion Factor*Depth of Groove*pi*Tensile Yield Strength of Groove Material)

Allowable Static Thrust Load on Groove

LaTeX Go Allowable Static Thrust Load on Groove Wall = (Conversion Factor*Shaft Diameter*Depth of Groove*pi*Tensile Yield Strength of Groove Material)/(Factor of Safety*Reduction Factor)

Allowable impact loading on groove

LaTeX Go Allowable Impact Loading on Groove = (Allowable Static Thrust Load on Groove Wall*Depth of Groove)/2

Allowable Static Thrust Load on Groove Formula

LaTeX Go

What is static thrust load?

Static thrust load is the amount of measured force directed at and from a turning mechanism. As the mechanism such as a gear turns on a shaft, there is both load emitted from the gear in the direction it is turning as well as against the shaft it is turning on, either forward or to the rear.

How to Calculate Allowable Static Thrust Load on Groove?

Allowable Static Thrust Load on Groove calculator uses Allowable Static Thrust Load on Groove Wall = (Conversion Factor*Shaft Diameter*Depth of Groove*pi*Tensile Yield Strength of Groove Material)/(Factor of Safety*Reduction Factor) to calculate the Allowable Static Thrust Load on Groove Wall, The Allowable Static Thrust Load on Groove formula is defined as the amount of measured force directed at and from a turning mechanism. Allowable Static Thrust Load on Groove Wall is denoted by F_tg symbol.

How to calculate Allowable Static Thrust Load on Groove using this online calculator? To use this online calculator for Allowable Static Thrust Load on Groove, enter Conversion Factor (C), Shaft Diameter (D), Depth of Groove (D_g), Tensile Yield Strength of Groove Material (σ_sy), Factor of Safety (f_s) & Reduction Factor (Φ) and hit the calculate button. Here is how the Allowable Static Thrust Load on Groove calculation can be explained with given input values -> 241.5018 = (0.11*3.6*3.8*pi*9)/(2.8*0.85).

FAQ

What is Allowable Static Thrust Load on Groove?

The Allowable Static Thrust Load on Groove formula is defined as the amount of measured force directed at and from a turning mechanism and is represented as F_tg = (C*D*D_g*pi*σ_sy)/(f_s*Φ) or Allowable Static Thrust Load on Groove Wall = (Conversion Factor*Shaft Diameter*Depth of Groove*pi*Tensile Yield Strength of Groove Material)/(Factor of Safety*Reduction Factor). Conversion factor is to account for change from metric units used in development of the formula, The Shaft Diameter is defined as the diameter of the hole in the iron laminations that contains the shaft, Depth of groove is the perpendicular distance from a real or calculated reference plane defined by edges of two adjacent ribs to the lowest point in the groove, Tensile yield strength of groove material is the stress that causes a material to lose its elastic behavior, Factor of Safety expresses how much stronger a system is than it needs to be for an intended load & Reduction Factor is constant term used as factor for load calculation.

How to calculate Allowable Static Thrust Load on Groove?

The Allowable Static Thrust Load on Groove formula is defined as the amount of measured force directed at and from a turning mechanism is calculated using Allowable Static Thrust Load on Groove Wall = (Conversion Factor*Shaft Diameter*Depth of Groove*pi*Tensile Yield Strength of Groove Material)/(Factor of Safety*Reduction Factor). To calculate Allowable Static Thrust Load on Groove, you need Conversion Factor (C), Shaft Diameter (D), Depth of Groove (D_g), Tensile Yield Strength of Groove Material (σ_sy), Factor of Safety (f_s) & Reduction Factor (Φ). With our tool, you need to enter the respective value for Conversion Factor, Shaft Diameter, Depth of Groove, Tensile Yield Strength of Groove Material, Factor of Safety & Reduction Factor 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 Allowable Static Thrust Load on Groove Wall?

In this formula, Allowable Static Thrust Load on Groove Wall uses Conversion Factor, Shaft Diameter, Depth of Groove, Tensile Yield Strength of Groove Material, Factor of Safety & Reduction Factor. We can use 1 other way(s) to calculate the same, which is/are as follows -

Allowable Static Thrust Load on Groove Wall = Allowable Impact Loading on Groove*2/Depth of Groove

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