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gibbo
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This may be obvious but since the packing fraction for both hexagonal close packed and face centered cubic is the same (74% i believe) why is HCP more common in elemental compositions?
HCP (hexagonal close-packed) and FCC (face-centered cubic) are two of the most common crystal structures found in elements. The main difference between them lies in the arrangement of atoms within the crystal lattice. In HCP, the atoms are arranged in a hexagonal pattern, while in FCC, they are arranged in a cubic pattern with atoms at the corners and in the center of each face.
Some common elements that have an HCP crystal structure include magnesium, titanium, zinc, and cobalt. However, there are many other elements that can also form an HCP structure depending on the conditions they are in.
The crystal structure of an element is determined by a combination of factors, including the size and charge of its atoms, as well as the temperature and pressure at which it is formed. For example, smaller atoms with a higher charge tend to favor an HCP structure, while larger atoms with a lower charge tend to favor an FCC structure.
Both HCP and FCC structures have their own unique properties. For example, HCP structures tend to be more compact and have a higher density than FCC structures. On the other hand, FCC structures are more symmetrical and have a higher ductility, making them easier to deform under stress.
It is possible for an element to have both HCP and FCC structures, depending on the conditions it is under. For example, at high temperatures, some elements can undergo a phase transition from HCP to FCC, resulting in a mixture of both structures within the same material. This can also happen due to the addition of impurities or through the process of alloying.