Differences between ductile material and brittle material

 When an external tensile load is applied to a material, initially it undergoes elastic deformation and then plastic deformation starts. Elastic deformation is recoverable, while plastic deformation is permanent.  The ability of a material to exhibit plastic deformation before the fracture is an indication of ductility. Materials that show substantial plastic deformation under external loading are called ductile materials; while brittle materials exhibit negligible plastic deformation. Similarities and differences between ductile material and brittle material are provided below.

Similarities between ductile material and brittle material

• Both are associated with the plastic deformation of the material under tensile loading.
• Ductility or brittleness is highly temperature-dependent. For example, a brittle material can behave like a ductile one at an elevated temperature. Similarly, a ductile material at room temperature, when frozen, can automatically convert into brittle material.
• Ductility or brittleness of a material also depends on the inbuilt stress level. Under the presence of high residual stress, a ductile material may fail without palpable plastic elongation.

Differences between ductile material and brittle material

Ductile Material	Brittle Material
Solid materials that can undergo substantial plastic deformation prior to fracture are called ductile materials.	Solid materials that exhibit negligible plastic deformation are called brittle materials.
Percentage elongation of the ductile materials before fracture under tensile testing is higher.	Percentage elongation of the brittle materials before fracture under tensile testing is very less.
Ductile materials fail gradually by neck formation under the action of external tensile loading.	Brittle materials fail by sudden fracture (without any warning such as necking).
Energy absorbed by ductile materials before fracture under tensile testing is more.	Brittle materials absorb very small energy before fracture.
Various metal forming operations (such as rolling, forging, drawing, bending, etc.) can be performed on ductile materials.	Forming operations cannot be easily performed on brittle materials. For example, brittle material cannot be drawn into wire.
Ductile materials show a longer life when subjected to fatigue loading.	Brittle materials fail faster when subjected to fatigue loading.
Examples of ductile material: Mild steel Aluminium Copper Rubber Most plastics	Examples of brittle material: Cast iron Ceramics such as glass, cement, concrete, etc. Stone Ice