Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet Solution

STEP 0: Pre-Calculation Summary
Formula Used
Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4
Ptappet = (σc*pi*dc^2)/4
This formula uses 1 Constants, 3 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Compressive Force on Tappet - (Measured in Newton) - Compressive Force on Tappet is the force that compresses the tappet along its axial direction.
Compressive Stress in Tappet - (Measured in Pascal) - Compressive Stress in Tappet or stud is the force per unit area that is responsible for the deformation of the tappet such that the volume of the material reduces and its length decreases.
Core Diameter of Tappet - (Measured in Meter) - Core Diameter of Tappet is defined as the smallest diameter of the thread of the tappet or the stud of a rocker arm.
STEP 1: Convert Input(s) to Base Unit
Compressive Stress in Tappet: 36.5 Newton per Square Millimeter --> 36500000 Pascal (Check conversion here)
Core Diameter of Tappet: 8 Millimeter --> 0.008 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ptappet = (σc*pi*dc^2)/4 --> (36500000*pi*0.008^2)/4
Evaluating ... ...
Ptappet = 1834.69010969644
STEP 3: Convert Result to Output's Unit
1834.69010969644 Newton --> No Conversion Required
FINAL ANSWER
1834.69010969644 1834.69 Newton <-- Compressive Force on Tappet
(Calculation completed in 00.020 seconds)

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10+ Design of Tappet Calculators

Core Diameter of Tappet or Stud of Rocker Arm of Engine Valve
Go Core Diameter of Tappet = sqrt((4*(Gas Load on Exhaust Valve+Inertia Force on Valve+Spring Force))/(pi*Compressive Stress in Tappet))
Nominal Diameter of Tappet or Stud of Rocker Arm of Engine Valve
Go Nominal Diameter = (sqrt((4*(Gas Load on Exhaust Valve+Inertia Force on Valve+Spring Force))/(pi*Compressive Stress in Tappet)))/0.8
Compressive Stress in Tappet of Rocker Arm of Engine Valve
Go Compressive Stress in Tappet = (4*(Gas Load on Exhaust Valve+Inertia Force on Valve+Spring Force))/(pi*Core Diameter of Tappet^2)
Core Diameter of Tappet of Rocker Arm of Valve given Total Force on Rocker Arm of Exhaust Valve
Go Core Diameter of Tappet = sqrt((4*Total Force on Rocker Arm of Exhaust Valve)/(pi*Compressive Stress in Tappet))
Nominal Diameter of Tappet or Stud of Rocker Arm of Engine Valve given its Core Diameter
Go Nominal Diameter = (sqrt((4*Total Force on Rocker Arm of Exhaust Valve)/(pi*Compressive Stress in Tappet)))/0.8
Stress in Tappet of Rocker Arm of Engine Valve given Total Force on Rocker Arm of Exhaust Valve
Go Compressive Stress in Tappet = (4*Total Force on Rocker Arm of Exhaust Valve)/(pi*Core Diameter of Tappet^2)
Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet
Go Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4
Compressive Force on Tappet of Rocker Arm of Engine Valve
Go Compressive Force on Tappet = Gas Load on Exhaust Valve+Inertia Force on Valve+Spring Force
Diameter of Circular End of Rocker Arm of Engine Valve
Go Diameter of Circular End of Rocker Arm = 2*Nominal Diameter
Depth of Circular End of Rocker Arm of Engine Valve
Go Depth of Circular End of Rocker Arm = 2*Nominal Diameter

Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet Formula

Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4
Ptappet = (σc*pi*dc^2)/4

What is an engine valve?

Engine valves are mechanical components used in internal combustion engines to allow or restrict the flow of fluid or gas to and from the combustion chambers or cylinders during engine operation. Functionally, they perform similarly to many other types of valves in that they block or pass flow, however, they are a purely mechanical device that interfaces with other engine components such as rocker arms in order to open and close in the correct sequence and with the correct timing. The term engine valve may also refer to a type of check valve that is used for air injection as part of the emission control and exhaust gas recirculation systems in vehicles

How to Calculate Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet?

Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet calculator uses Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4 to calculate the Compressive Force on Tappet, The Compressive force on tappet of rocker arm of engine valve given stress in tappet is the force that compresses the tappet along its axial direction. This force is due to the total force on the rocker arm of the exhaust valve. Compressive Force on Tappet is denoted by Ptappet symbol.

How to calculate Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet using this online calculator? To use this online calculator for Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet, enter Compressive Stress in Tappet c) & Core Diameter of Tappet (dc) and hit the calculate button. Here is how the Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet calculation can be explained with given input values -> 1834.69 = (36500000*pi*0.008^2)/4.

FAQ

What is Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet?
The Compressive force on tappet of rocker arm of engine valve given stress in tappet is the force that compresses the tappet along its axial direction. This force is due to the total force on the rocker arm of the exhaust valve and is represented as Ptappet = (σc*pi*dc^2)/4 or Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4. Compressive Stress in Tappet or stud is the force per unit area that is responsible for the deformation of the tappet such that the volume of the material reduces and its length decreases & Core Diameter of Tappet is defined as the smallest diameter of the thread of the tappet or the stud of a rocker arm.
How to calculate Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet?
The Compressive force on tappet of rocker arm of engine valve given stress in tappet is the force that compresses the tappet along its axial direction. This force is due to the total force on the rocker arm of the exhaust valve is calculated using Compressive Force on Tappet = (Compressive Stress in Tappet*pi*Core Diameter of Tappet^2)/4. To calculate Compressive Force on Tappet of Rocker Arm of Engine Valve given Stress in Tappet, you need Compressive Stress in Tappet c) & Core Diameter of Tappet (dc). With our tool, you need to enter the respective value for Compressive Stress in Tappet & Core Diameter of Tappet 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 Compressive Force on Tappet?
In this formula, Compressive Force on Tappet uses Compressive Stress in Tappet & Core Diameter of Tappet. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Compressive Force on Tappet = Gas Load on Exhaust Valve+Inertia Force on Valve+Spring Force
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