Depth during Indentation using Displacement of Surface and Depth of Contact Calculator

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✖The Displacement of Surface is simply the displacement of the surface on the perimeter of the contact due to elastic depression.ⓘ Displacement of Surface [h_s]			+10% -10%
✖The Depth of Contact is defined as the depth of penetration when the indenter is in contact with the sample.ⓘ Depth of Contact [h_c]			+10% -10%

✖The Depth during Indentation is the sum of displacement of surface and the depth of contact, which is measured during indentation.ⓘ Depth during Indentation using Displacement of Surface and Depth of Contact [h]

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Depth during Indentation using Displacement of Surface and Depth of Contact

Formula

`"h" = "h"_{"s"}+"h"_{"c"}`

Example

`"110nm"="50nm"+"60nm"`

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Depth during Indentation using Displacement of Surface and Depth of Contact Solution

STEP 0: Pre-Calculation Summary

Formula Used

Depth during Indentation = Displacement of Surface+Depth of Contact
h = h_s+h_c
This formula uses 3 Variables

Variables Used

Depth during Indentation - (Measured in Meter) - The Depth during Indentation is the sum of displacement of surface and the depth of contact, which is measured during indentation.
Displacement of Surface - (Measured in Meter) - The Displacement of Surface is simply the displacement of the surface on the perimeter of the contact due to elastic depression.
Depth of Contact - (Measured in Meter) - The Depth of Contact is defined as the depth of penetration when the indenter is in contact with the sample.

STEP 1: Convert Input(s) to Base Unit

Displacement of Surface: 50 Nanometer --> 5E-08 Meter (Check conversion here)
Depth of Contact: 60 Nanometer --> 6E-08 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h = h_s+h_c --> 5E-08+6E-08

Evaluating ... ...

h = 1.1E-07

STEP 3: Convert Result to Output's Unit

1.1E-07 Meter -->110 Nanometer (Check conversion here)

FINAL ANSWER

110 Nanometer <-- Depth during Indentation

(Calculation completed in 00.004 seconds)

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< 8 Mechanical and Nanomechanical Properties Calculators

Displacement of Surface using Final Depth and Maximum Depth

Go Displacement of Surface = ((pi-2)/pi)*(Maximum Depth-Final Depth)

Maximum Depth using Final Depth and Displacement of Surface

Go Maximum Depth = ((pi*Displacement of Surface)/(pi-2))+Final Depth

Depth during Indentation using Displacement of Surface and Depth of Contact

Go Depth during Indentation = Displacement of Surface+Depth of Contact

Displacement of Surface using Depth during Indentation and Depth of Contact

Go Displacement of Surface = Depth during Indentation-Depth of Contact

Depth of Contact using Depth during Indentation and Displacement of Surface

Go Depth of Contact = Depth during Indentation-Displacement of Surface

Depth of Contact using Maximum Depth and Displacement of Surface

Go Depth of Contact = Maximum Depth-Displacement of Surface

Maximum Depth using Depth of Contact and Displacement of Surface

Go Maximum Depth = Depth of Contact+Displacement of Surface

Displacement of Surface using Maximum Depth and Depth of Contact

Go Displacement of Surface = Maximum Depth-Depth of Contact

Depth during Indentation using Displacement of Surface and Depth of Contact Formula

Depth during Indentation = Displacement of Surface+Depth of Contact
h = h_s+h_c

What is Berkovich tip?

A Berkovich tip is a type of nanoindenter tip used for testing the indentation hardness of a material. It is a three-sided pyramid which is geometrically self-similar.

How to Calculate Depth during Indentation using Displacement of Surface and Depth of Contact?

Depth during Indentation using Displacement of Surface and Depth of Contact calculator uses Depth during Indentation = Displacement of Surface+Depth of Contact to calculate the Depth during Indentation, The Depth during Indentation using Displacement of Surface and Depth of Contact formula is defined as the sum of displacement of surface and the depth of contact, which is measured during indentation. Depth during Indentation is denoted by h symbol.

How to calculate Depth during Indentation using Displacement of Surface and Depth of Contact using this online calculator? To use this online calculator for Depth during Indentation using Displacement of Surface and Depth of Contact, enter Displacement of Surface (h_s) & Depth of Contact (h_c) and hit the calculate button. Here is how the Depth during Indentation using Displacement of Surface and Depth of Contact calculation can be explained with given input values -> 1.1E+11 = 5E-08+6E-08.

FAQ

What is Depth during Indentation using Displacement of Surface and Depth of Contact?

The Depth during Indentation using Displacement of Surface and Depth of Contact formula is defined as the sum of displacement of surface and the depth of contact, which is measured during indentation and is represented as h = h_s+h_c or Depth during Indentation = Displacement of Surface+Depth of Contact. The Displacement of Surface is simply the displacement of the surface on the perimeter of the contact due to elastic depression & The Depth of Contact is defined as the depth of penetration when the indenter is in contact with the sample.

How to calculate Depth during Indentation using Displacement of Surface and Depth of Contact?

The Depth during Indentation using Displacement of Surface and Depth of Contact formula is defined as the sum of displacement of surface and the depth of contact, which is measured during indentation is calculated using Depth during Indentation = Displacement of Surface+Depth of Contact. To calculate Depth during Indentation using Displacement of Surface and Depth of Contact, you need Displacement of Surface (h_s) & Depth of Contact (h_c). With our tool, you need to enter the respective value for Displacement of Surface & Depth of Contact 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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