Tensile Stress in Valve Stem due to Spring Force on Valve Calculator

✖Spring Force on Seated Valve is the force exerted by the valve spring onto the valve when it is seated.ⓘ Spring Force on Seated Valve [P_s]			+10% -10%
✖Thickness of Valve Disk is the thickness of the circular valve disk of a valve and is the part of valve head.ⓘ Thickness of Valve Disk [t]			+10% -10%
✖Diameter of Valve Stem is the diameter of the lowermost part of the valve (valve stem).ⓘ Diameter of Valve Stem [d_s]			+10% -10%
✖Diameter of Port is the diameter of the opening of the port of an IC Engine.ⓘ Diameter of Port [d_p]			+10% -10%

✖Tensile Stress in Valve Stem is the amount of tensile stress induced into the valve stem due to the tensile spring force acting on it.ⓘ Tensile Stress in Valve Stem due to Spring Force on Valve [σ_t]

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Tensile Stress in Valve Stem due to Spring Force on Valve Solution

STEP 0: Pre-Calculation Summary

Formula Used

Tensile Stress in Valve Stem = 1.4*Spring Force on Seated Valve/(Thickness of Valve Disk^2)*(1-(2*Diameter of Valve Stem)/(3*Diameter of Port))
σ_t = 1.4*P_s/(t^2)*(1-(2*d_s)/(3*d_p))
This formula uses 5 Variables

Variables Used

Tensile Stress in Valve Stem - (Measured in Pascal) - Tensile Stress in Valve Stem is the amount of tensile stress induced into the valve stem due to the tensile spring force acting on it.
Spring Force on Seated Valve - (Measured in Newton) - Spring Force on Seated Valve is the force exerted by the valve spring onto the valve when it is seated.
Thickness of Valve Disk - (Measured in Meter) - Thickness of Valve Disk is the thickness of the circular valve disk of a valve and is the part of valve head.
Diameter of Valve Stem - (Measured in Meter) - Diameter of Valve Stem is the diameter of the lowermost part of the valve (valve stem).
Diameter of Port - (Measured in Meter) - Diameter of Port is the diameter of the opening of the port of an IC Engine.

STEP 1: Convert Input(s) to Base Unit

Spring Force on Seated Valve: 63 Newton --> 63 Newton No Conversion Required
Thickness of Valve Disk: 5.5 Millimeter --> 0.0055 Meter (Check conversion here)
Diameter of Valve Stem: 15 Millimeter --> 0.015 Meter (Check conversion here)
Diameter of Port: 40 Millimeter --> 0.04 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

σ_t = 1.4*P_s/(t^2)*(1-(2*d_s)/(3*d_p)) --> 1.4*63/(0.0055^2)*(1-(2*0.015)/(3*0.04))

Evaluating ... ...

σ_t = 2186776.85950413

STEP 3: Convert Result to Output's Unit

2186776.85950413 Pascal -->2.18677685950413 Newton per Square Millimeter (Check conversion here)

FINAL ANSWER

2.18677685950413 ≈ 2.186777 Newton per Square Millimeter <-- Tensile Stress in Valve Stem

(Calculation completed in 00.004 seconds)

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Home » Physics » IC Engine » Design of IC Engine Components » Engine Valves » Mechanical » Valve Stem » Tensile Stress in Valve Stem due to Spring Force on Valve

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Created by Saurabh Patil

Shri Govindram Seksaria Institute of Technology and Science (SGSITS ), Indore

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< Valve Stem Calculators

Diameter of Port given Diameter of Valve Stem

LaTeX Go Diameter of Port = (Diameter of Valve Stem)/(1.5*(1-(Tensile Stress in Valve Stem*Thickness of Valve Disk^2)/(1.4*Spring Force on Seated Valve)))

Diameter of Valve Stem

LaTeX Go Diameter of Valve Stem = 1.5*Diameter of Port*(1-(Tensile Stress in Valve Stem*Thickness of Valve Disk^2)/(1.4*Spring Force on Seated Valve))

Minimum Diameter of Valve Stem

LaTeX Go Diameter of Valve Stem = Diameter of Port/8+6.35

Maximum Diameter of Valve Stem

LaTeX Go Diameter of Valve Stem = Diameter of Port/8+11

Tensile Stress in Valve Stem due to Spring Force on Valve Formula

LaTeX Go

Tensile Stress in Valve Stem = 1.4*Spring Force on Seated Valve/(Thickness of Valve Disk^2)*(1-(2*Diameter of Valve Stem)/(3*Diameter of Port))
σ_t = 1.4*P_s/(t^2)*(1-(2*d_s)/(3*d_p))

Construction of Poppet valve of an IC Engine

The poppet valve consists of a disk called ‘head’ at the end of a rod called ‘stem’. The ‘face’ of the valve is a conical surface that comes in contact with a valve seat It has a face angle varying from 30° to 45°. The conical surface of the valve results in the self-centering property. There is a small margin between the head and the face. There are two reasons for providing the margin—it avoids the sharp edges and a provision is made for regrinding of the valve. The lower end of the valve stem has a groove. A spring retainer is fitted in this groove, which supports one end of the valve spring. In slow-speed engines, valves have composite construction with a cast iron head and steel stem. In high-speed engines, one-piece construction is used and valves are forged.

How to Calculate Tensile Stress in Valve Stem due to Spring Force on Valve?

Tensile Stress in Valve Stem due to Spring Force on Valve calculator uses Tensile Stress in Valve Stem = 1.4*Spring Force on Seated Valve/(Thickness of Valve Disk^2)*(1-(2*Diameter of Valve Stem)/(3*Diameter of Port)) to calculate the Tensile Stress in Valve Stem, Tensile stress in valve stem due to spring force on valve is the amount of tensile stress induced into the valve stem due to the tensile spring force acting on it. Tensile Stress in Valve Stem is denoted by σ_t symbol.

How to calculate Tensile Stress in Valve Stem due to Spring Force on Valve using this online calculator? To use this online calculator for Tensile Stress in Valve Stem due to Spring Force on Valve, enter Spring Force on Seated Valve (P_s), Thickness of Valve Disk (t), Diameter of Valve Stem (d_s) & Diameter of Port (d_p) and hit the calculate button. Here is how the Tensile Stress in Valve Stem due to Spring Force on Valve calculation can be explained with given input values -> 2.2E-6 = 1.4*63/(0.0055^2)*(1-(2*0.015)/(3*0.04)).

FAQ

What is Tensile Stress in Valve Stem due to Spring Force on Valve?

Tensile stress in valve stem due to spring force on valve is the amount of tensile stress induced into the valve stem due to the tensile spring force acting on it and is represented as σ_t = 1.4*P_s/(t^2)*(1-(2*d_s)/(3*d_p)) or Tensile Stress in Valve Stem = 1.4*Spring Force on Seated Valve/(Thickness of Valve Disk^2)*(1-(2*Diameter of Valve Stem)/(3*Diameter of Port)). Spring Force on Seated Valve is the force exerted by the valve spring onto the valve when it is seated, Thickness of Valve Disk is the thickness of the circular valve disk of a valve and is the part of valve head, Diameter of Valve Stem is the diameter of the lowermost part of the valve (valve stem) & Diameter of Port is the diameter of the opening of the port of an IC Engine.

How to calculate Tensile Stress in Valve Stem due to Spring Force on Valve?

Tensile stress in valve stem due to spring force on valve is the amount of tensile stress induced into the valve stem due to the tensile spring force acting on it is calculated using Tensile Stress in Valve Stem = 1.4*Spring Force on Seated Valve/(Thickness of Valve Disk^2)*(1-(2*Diameter of Valve Stem)/(3*Diameter of Port)). To calculate Tensile Stress in Valve Stem due to Spring Force on Valve, you need Spring Force on Seated Valve (P_s), Thickness of Valve Disk (t), Diameter of Valve Stem (d_s) & Diameter of Port (d_p). With our tool, you need to enter the respective value for Spring Force on Seated Valve, Thickness of Valve Disk, Diameter of Valve Stem & Diameter of Port and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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