Physics - Classical Mechanics - Tensile Stress and Strain

in #physics5 years ago (edited)

[Image 1]

Introduction

    Hey it's a me again @drifter1! Today we continue with Physics and more specifically the branch "Classical Mechanics" to continue with the chapter of Equilibrium and Elasticity. In this article we will get into Tensile Stress and Strain. So, without further ado, let's dive straight into it!


Tensile Stress

    Tensile stress is defined as the resistance an object has to forces tending to break it. It is equal to the force per unit area that a material can endure without tearing apart. The maximum stress that the material can stand is called the ultimate tensile stress or breaking stress.

Stress is defined by the following formula:


  • σ = tensile stress measured in N/m2 or pascals (Pa)
  • F = force in newtons (N)
  • A = cross-sectional area in m2
    Lots of mechanical properties of materials can be determined from a tensile test. When a tensile force acts on a material, the following tensile properties can be calculated:
  • Elastic modulus
  • Ultimate tensile stress (UTS)
  • Modulus of resilience
  • Fracture stress

Tensile Strain

    The ratio of extension to original length is called strain and has no units. Mathematically, we can write it as following:


  • ε = tensile strain with no units
  • ΔL = extension measured in metres (m)
  • L = original length measured in metres (m)

Young's Modulus

    Young's modulus of elasticity is defined as "The mechanical property of a material to withstand the compression or elongation with respect to its length". It is denoted as E or Y. Using Hooke's Law of elasticity, Young's modulus is defined as:


  • σ = tensile stress
  • ε = tensile strain
  • F = tensile force
  • A = cross-sectional area
  • L0 = original length
  • Ln = new length

Poisson's Ratio

    Stretching a material in one diretion it tends to get thinner, whilst compressing it tends to make it thicker in the lateral direction. Poisson's ratio is expressed as:


  • μ = Poisson's ratio
  • εt = transverse strain
  • εl = longitudinal or axial strain
Longitudinal (or axial) strain can be expressed as:


  • εt = longitudinal or axial strain
  • ΔL = change in length
  • L = initial length
Contraction (or transverse, lateral or radial) strain can be expressed as:


  • εl = transverse, lateral or radial strain
  • Δr = change in radius
  • r = initial radius

RESOURCES:

References

  1. https://www.corrosionpedia.com/definition/1073/tensile-stress
  2. http://physicsnet.co.uk/a-level-physics-as-a2/materials/stress-strain/
  3. https://byjus.com/physics/tensile-stress/
  4. https://byjus.com/physics/youngs-modulus-elastic-modulus/
  5. https://www.britannica.com/science/Youngs-modulus
  6. https://www.engineeringtoolbox.com/poissons-ratio-d_1224.html

Images

  1. https://en.m.wikipedia.org/wiki/File:StressStrain.png

Mathematical equations used in this article, where made using quicklatex.


Previous articles of the series

Rectlinear motion

Plane motion

Newton's laws and Applications

Work and Energy

Momentum and Impulse

Angular Motion

Equilibrium and Elasticity


Final words | Next up

And this is actually it for today's post!

Next time we will continue with Volumetric Tension and Strain...

See ya!

Keep on drifting!

Sort:  

Hi @drifter1!

Your post was upvoted by @steem-ua, new Steem dApp, using UserAuthority for algorithmic post curation!
Your UA account score is currently 3.527 which ranks you at #6775 across all Steem accounts.
Your rank has not changed in the last three days.

In our last Algorithmic Curation Round, consisting of 106 contributions, your post is ranked at #30.

Evaluation of your UA score:
  • You're on the right track, try to gather more followers.
  • The readers like your work!
  • Try to work on user engagement: the more people that interact with you via the comments, the higher your UA score!

Feel free to join our @steem-ua Discord server

Hello,

Your post has been manually curated by a @stem.curate curator.

FA8866FD-F2C3-43B3-A5A5-E0324BA4BB47.jpeg
Supporting Steemians on STEMGeeks

We are dedicated to supporting great content, like yours on the STEMGeeks tribe.

If you like what we are doing, please show your support as well by following our Steem Auto curation trail.

Please join us on discord.

As a follower of @followforupvotes this post has been randomly selected and upvoted! Enjoy your upvote and have a great day!



This post has been voted on by the SteemSTEM curation team and voting trail. It is elligible for support from @curie and @minnowbooster.

If you appreciate the work we are doing, then consider supporting our witness @stem.witness. Additional witness support to the curie witness would be appreciated as well.

For additional information please join us on the SteemSTEM discord and to get to know the rest of the community!

Please consider using the steemstem.io app and/or including @steemstem in the list of beneficiaries of this post. This could yield a stronger support from SteemSTEM.

Coin Marketplace

STEEM 0.25
TRX 0.21
JST 0.037
BTC 98282.96
ETH 3475.43
USDT 1.00
SBD 3.41