The Pozzolanic reaction primarily occurs between amorphous siliceous materials (namely, pozzolan and pozzolana, a finely divided volcanic ash, rich in Obsidian, a mineral glass commonly found in lava) and slaked lime (calcium hydroxide) to form calcium silicate hydrates. It is the main reaction involved in the Roman concrete invented in the Ancient Rome and used to build, a.o., the Pantheon.
At the basis of the Pozzolanic reaction stands a simple acid-base reaction between calcium hydroxide, also known as Portlandite, or (Ca(OH)2), and silicic acid (H4SiO4, or Si(OH)4). For simplifying, this reaction can be schematically represented as following:
- Ca(OH)2 + H4SiO4 —> Ca2+ + H2SiO42- + 2 H2O —> CaH2SiO4 · 2 H2O
or summarized in abbreviated notation of cement chemists:
- CH + SH —> CSH
The product of general formula (CaH2SiO4 · 2 H2O ) formed is a calcium silicate hydrate, also abbreviated as CSH in cement chemist notation. The ratio Ca/Si, or C/S, and the number of water molecules can vary and the hereabove mentioned stoichiometry may differ.
As the density of CSH is lower than that of portlandite and pure silica, a consequence of this reaction is a swelling of the reaction products. This reaction may also occur with time in concrete between alkaline cement porewater and poorly-crystalline silica aggregates. This delayed process is also known as alkali silica reaction, or alkali-aggregate reaction, and may seriously damage concrete structures because the resulting volumetric expansion is also responsible for spalling and decrease of the concrete strength.
See also
- Aerated autoclaved concrete
- Alkali Silica Reaction
- Alkali-aggregate reaction
- Calcium silicate hydrate (CSH)
- Cement
- Cement chemist notation
- Cenospheres
- Concrete
- Fly ash
- Portland cement
- Pozzolan
- Pozzolana
- Rice husk ash
- Roman concrete
- Silica fume
- Sodium silicate
References
- Cook D.J. (1986) Natural pozzolanas. In: Swamy R.N., Editor (1986) Cement Replacement Materials, Surrey University Press, p. 200.
- Lechtman H. and Hobbs L. (1986) "Roman Concrete and the Roman Architectural Revolution", Ceramics and Civilization Volume 3: High Technology Ceramics: Past, Present, Future, edited by W.D. Kingery and published by the American Ceramics Society, 1986; and Vitruvius, Book II:v,1; Book V:xii2.
- McCann A.M. (1994) "The Roman Port of Cosa" (273 BC), Scientific American, Ancient Cities, pp. 92–99, by Anna Marguerite McCann. Covers, hydraulic concrete, of "Pozzolana mortar" and the 5 piers, of the Cosa harbor, the Lighthouse on pier 5, diagrams, and photographs. Height of Port city: 100 BC.
- Mertens, G.; R. Snellings, K. Van Balen, B. Bicer-Simsir, P. Verlooy, J. Elsen (2009). "Pozzolanic reactions of common natural zeolites with lime and parameters affecting their reactivity". Cement and Concrete Research 39 (3): 233–240. doi:. ISSN 0008-8846. http://www.sciencedirect.com/science/article/B6TWG-4VC14XR-4/2/3383178a708024fc4d80b7e98f28c61f. Retrieved 2009-03-23.
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