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Porosimetry is an analytical technique used to determine various quantifiable aspects of a material's porous structure, such as pore diameter, total pore volume, surface area, and bulk and absolute densities.

The technique involves the intrusion of a non-wetting liquid (often mercury) at high pressure into a material through the use of a porosimeter. The pore size can be determined based on the external pressure needed to force the liquid into a pore against the opposing force of the liquid's surface tension.

A force balance equation known as Washburn's equation for the above material having cylindrical pores is given as:[1]

= pressure of liquid
= pressure of gas
= surface tension of liquid
= contact angle of intrusion liquid
= pore diameter

Since the technique is usually performed within a vacuum, the initial gas pressure is zero. The contact angle of mercury with most solids is between 135° and 142°, so an average of 140° can be taken without much error. The surface tension of mercury at 20 °C under vacuum is 480 mN/m. With the various substitutions, the equation becomes:

As pressure increases, so does the cumulative pore volume. From the cumulative pore volume, one can find the pressure and pore diameter where 50% of the total volume has been added to give the median pore diameter.

See also

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References

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  1. ^ Abell, A.B.; Willis, K.L.; Lange, D.A. (1999). "Mercury intrusion porosimetry and image analysis of cement-based materials". Journal of Colloid and Interface Science. 211 (1): 39–44. doi:10.1006/jcis.1998.5986. ISSN 0021-9797.