Experimental Evidence of Crystallization Pressure inside Porous Media

L. A. Rijniers, H. P. Huinink, L. Pel, K. Kopinga
2005 Physical Review Letters  
Crystallization pressure of salt in porous materials is one of the mechanisms that may induce serious damage, for example, weathering of buildings and monuments of cultural heritage. Since this pressure also causes the solubility of the salt inside a porous material to differ from the bulk solubility, it can be assessed experimentally by measuring the solubility inside the pores. We show that this is possible by NMR, and study Na 2 CO 3 and Na 2 SO 4 in a series of model porous materials. Using
more » ... the solubility data the crystal-liquid surface energies are estimated as 0:09 N=m for Na 2 CO 3 10H 2 O and 0:06 N=m for Na 2 SO 4 10H 2 O. For pore sizes below about 30 nm, the resulting pressure exceeds the tensile strength of typical building materials (3 MPa). No pressure is induced by the metastable Na 2 SO 4 7H 2 O, which suggests for this crystal a value of close to zero.
doi:10.1103/physrevlett.94.075503 pmid:15783826 fatcat:kgfiqqannzcuxc23rxkc5aeiay