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System stiffness given Number of workpiece revolution Formula

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Effective stiffness is the total extent to which a workpiece resists deformation in response to an applied force. Check FAQs

S e = 2 \cdot v w \cdot \frac{a p}{Λ W \cdot m}

S_e - Effective Stiffness?v_w - Surface Speed of Workpiece in Grinding?a_p - The Width of Grinding Path?Λ_W - Workpiece Removal Parameter per Unit Time?m - Number of Workpiece Revolution?

System stiffness given Number of workpiece revolution Example

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Here is how the System stiffness given Number of workpiece revolution equation looks like with Values.

Here is how the System stiffness given Number of workpiece revolution equation looks like with Units.

Here is how the System stiffness given Number of workpiece revolution equation looks like.

0.0299 = 2 \cdot 100 \cdot \frac{1100.1}{2.45 \cdot 3}

0.0299N/m = 2 \cdot 100mm/s \cdot \frac{1100.1mm}{2.45 \cdot 3}

0.0299 = 2 \cdot 100 \cdot \frac{1100.1}{2.45 \cdot 3}

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System stiffness given Number of workpiece revolution Solution

Follow our step by step solution on how to calculate System stiffness given Number of workpiece revolution?

FIRST Step Consider the formula

S e = 2 \cdot v w \cdot \frac{a p}{Λ W \cdot m}

Next Step Substitute values of Variables

∴

S e = 2 \cdot 100mm/s \cdot \frac{1100.1mm}{2.45 \cdot 3}

Next Step Convert Units

∴

S e = 2 \cdot 0.1m/s \cdot \frac{1.1001m}{2.45 \cdot 3}

Next Step Prepare to Evaluate

∴

S e = 2 \cdot 0.1 \cdot \frac{1.1001}{2.45 \cdot 3}

Next Step Evaluate

∴

S e = 0.029934693877551N/m

LAST Step Rounding Answer

∴

S e = 0.0299N/m

System stiffness given Number of workpiece revolution Formula Elements

Variables

Effective Stiffness

Effective stiffness is the total extent to which a workpiece resists deformation in response to an applied force.

Symbol: S_e

Measurement: Surface TensionUnit: N/m

Note: Value can be positive or negative.

Formulas to find Effective Stiffness

Surface Speed of Workpiece in Grinding

Surface Speed of Workpiece in Grinding is the speed at which the outer edge of the wheel moves relative to the workpiece being ground. It influences the material removal rate and surface finish.

Symbol: v_w

Measurement: SpeedUnit: mm/s

Note: Value should be greater than 0.

Formulas to find Surface Speed of Workpiece in Grinding

The Width of Grinding Path

The Width of grinding path is defined as the width of material removed by the grinding wheel in a single pass over the workpiece.

Symbol: a_p

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find The Width of Grinding Path

Workpiece Removal Parameter per Unit Time

Workpiece removal parameter per unit time is the ratio of the volume of workpiece removed per unit time per unit thrust force. The amount of material removed from the workpiece per unit time.

Symbol: Λ_W

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Workpiece Removal Parameter per Unit Time

Number of Workpiece Revolution

Number of Workpiece Revolution is defined as the number of times the workpiece rotates completely about its axis during a machining operation.

Symbol: m

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Number of Workpiece Revolution

Other formulas in Workpiece category

Go Surface Speed of workpiece given Metal removal rate during grinding

v w = \frac{Z m}{f i \cdot a p}

Go Surface speed of workpiece given constant for grinding wheel

v w = ({a cMax}^{2}) \cdot \frac{V t}{K g \cdot \sqrt{f i}}

Go Diameter of workpiece given Metal removal rate

d wp = \frac{Z w}{V f \cdot π \cdot a p}

Go Diameter of workpiece given feed and machine infeed speed

d wp = Λ W \cdot d t \cdot \frac{(\frac{V if}{V f}) - 1}{Λ T}

How to Evaluate System stiffness given Number of workpiece revolution?

System stiffness given Number of workpiece revolution evaluator uses Effective Stiffness = 2*Surface Speed of Workpiece in Grinding*The Width of Grinding Path/(Workpiece Removal Parameter per Unit Time*Number of Workpiece Revolution) to evaluate the Effective Stiffness, The System stiffness given Number of workpiece revolution is the total extent to which a workpiece resists deformation in response to an applied force. Effective Stiffness is denoted by S_e symbol.

How to evaluate System stiffness given Number of workpiece revolution using this online evaluator? To use this online evaluator for System stiffness given Number of workpiece revolution, enter Surface Speed of Workpiece in Grinding (v_w), The Width of Grinding Path (a_p), Workpiece Removal Parameter per Unit Time (Λ_W) & Number of Workpiece Revolution (m) and hit the calculate button.

FAQs on System stiffness given Number of workpiece revolution

What is the formula to find System stiffness given Number of workpiece revolution?

The formula of System stiffness given Number of workpiece revolution is expressed as Effective Stiffness = 2*Surface Speed of Workpiece in Grinding*The Width of Grinding Path/(Workpiece Removal Parameter per Unit Time*Number of Workpiece Revolution). Here is an example- 0.040744 = 2*0.1*1.1001/(2.45*3).

How to calculate System stiffness given Number of workpiece revolution?

With Surface Speed of Workpiece in Grinding (v_w), The Width of Grinding Path (a_p), Workpiece Removal Parameter per Unit Time (Λ_W) & Number of Workpiece Revolution (m) we can find System stiffness given Number of workpiece revolution using the formula - Effective Stiffness = 2*Surface Speed of Workpiece in Grinding*The Width of Grinding Path/(Workpiece Removal Parameter per Unit Time*Number of Workpiece Revolution).

Can the System stiffness given Number of workpiece revolution be negative?

Yes, the System stiffness given Number of workpiece revolution, measured in Surface Tension can be negative.

Which unit is used to measure System stiffness given Number of workpiece revolution?

System stiffness given Number of workpiece revolution is usually measured using the Newton per Meter[N/m] for Surface Tension. Millinewton per Meter[N/m], Gram-Force per Centimeter[N/m], Dyne per Centimeter[N/m] are the few other units in which System stiffness given Number of workpiece revolution can be measured.

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System stiffness given Number of workpiece revolution Formula

System stiffness given Number of workpiece revolution Example

System stiffness given Number of workpiece revolution Solution

System stiffness given Number of workpiece revolution Formula Elements

Other formulas in Workpiece category

How to Evaluate System stiffness given Number of workpiece revolution?

FAQs on System stiffness given Number of workpiece revolution

Variable Name