Water (Its Volume Expansion Upon Freezing)

Upon freezing (i.e., transforming from a liquid to a solid upon cooling), most substances experience an increase in density (or, correspondingly, a decrease in volume). One exception is water, which exhibits the anomalous and familiar expansion upon freezing—approximately 9 volume percent expansion. This behavior may be explained on the basis of hydrogen bonding. Each H2O molecule has two hydrogen atoms that can bond to oxygen atoms; in addition, its single O atom can bond to two hydrogen atoms of other H2O molecules. Thus, for solid ice, each water molecule participates in four hydrogen bonds, as shown in the three-dimensional schematic Figure (a).

Water

The arrangement of water (H2O) molecules in (a) solid ice and (b) in liquid water.

Here, hydrogen bonds are denoted by dashed lines, and each water molecule has 4 nearest-neighbor molecules. This is a relatively open structure—that is, the molecules are not closely packed together—and as a result, the density is comparatively low. Upon melting, this structure is partially destroyed, such that the water molecules become more closely packed together [Figure (b)]—at room temperature, the average number of nearest-neighbor water molecules has increased to approximately 4.5; this leads to an increase in density.

Consequences of this anomalous freezing phenomenon are familiar; it explains why icebergs float; why, in cold climates, it is necessary to add antifreeze to an automobile’s cooling system (to keep the engine block from cracking); and why freeze–thaw cycles break up the pavement in streets and cause pot-holes to form.

Water Can

A watering can that ruptured along a side panel—bottom panel seam. Water that was left in the can during a cold late-autumn night expanded as it froze and caused the rupture. (Source: Photography by S. Tanner)

Source: Materials Science and Engineering – An Introduction — 9th Edition [Callister & Rethwisch]

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About Muhammad Arshad

I am graduate engineer from University of the Punjab, Quaid-e-Azam Campus, Lahore, Punjab, Pakistan. I complete my graduate degree in Metallurgy and Materials Engineering in session 2010-2014. Nowadays, I am trying to studying more about my field and searching new stuff which can help in my study and professional life. I hope this site will enhance your knowledge about Metallurgy and Materials Engineering.
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