Final answer:
Chromium atoms form a metallic bond with each other, where valence electrons are free to move in a 'sea of electrons', providing attraction between metal ions and these electrons.
Step-by-step explanation:
The type of bond chromium atoms are likely to form with other chromium atoms is a metallic bond. In metals, the atoms exist in a crystal lattice structure, and the valence electrons are free to move around, creating what is sometimes referred to as a 'sea of electrons'. This sea of electrons results in the attraction between the positively charged metal ions and these delocalized electrons, which is the essence of the metallic bond. A metallic bond is different from ionic and covalent bonds, as it involves the sharing of free electrons among a lattice of metal ions, whereas ionic bonds occur between metals and nonmetals and involve the transfer of electrons, and covalent bonds generally occur between nonmetals and involve the sharing of electrons.