When a material is stretched or compressed and returns to its original shape once the force is removed, it undergoes elastic deformation. The atoms are displaced from their equilibrium positions but the bonds are not broken.
If the applied force is large enough, the material does not return to its original shape after the load is removed. This permanent change is called plastic deformation. Dislocations in the crystal lattice move and the material retains a new shape.
The elastic limit is the maximum stress (or force per unit area) that a material can withstand while still exhibiting purely elastic behaviour. Beyond this point, plastic deformation begins.
| Property | Below Elastic Limit | Above Elastic Limit |
|---|---|---|
| Deformation type | Elastic (reversible) | Plastic (permanent) |
| Stress–Strain relation | Linear (Hooke’s Law) | Non‑linear, yielding occurs |
| Energy stored | Stored as elastic potential energy | Part dissipated as heat, part stored as plastic work |
💡 Remember: Elastic behaviour is like a spring – stretch it and it snaps back. Plastic behaviour is like modelling clay – shape it and it stays shaped. The elastic limit is the boundary between the two.