Question

Do steel have any interstitial space?

Answer 1

Hint: We know that the melting point of an element or a compound can be stated as the temperature or the point when a solid changes its state to liquid. Various changes in the physical properties take place in the parent metals such as hardness, density, rigidity, ductility, malleability, electrical conductivity etc.

Complete answer:
Interstitial compounds are marked by the presence of some atoms like $N,C\text{ }or\text{ }H.$ These atoms are trapped inside of the vacant interstitial spaces in the crystal lattice of the metals are some common examples of interstitial compounds. These interstitial compounds have higher melting points than corresponding pure metals. It is because these compounds are inert chemically, they are usually hard, and these compounds are stabilized due to the presence of foreign atoms.
During the formation of interstitial compounds, the chemical properties of the parent transition metal do not get changed or altered. Transition metals form a lot of interstitial compounds. Transition metals react with elements like hydrogen, nitrogen, boron, carbon etc. forming interstitial compounds. The various properties of the interstitial compounds are: Interstitial compounds are rigid and hard. It is because in the interstitial compound, the vacant spaces of the transition metals are filled up by the small atoms. Steel is an interstitial compound due to the presence of small sized carbon atoms in the interstitial space of iron.

Note:
Remember that Presence of some atoms like or trapped in the vacant spaces in the crystal lattice gives rise to the interstitial compounds. The melting points of these compounds are higher than that of pure metals due to bonding between the metal and the non-metals, which is stronger than the metal-metal bonding.