A molecular dynamics study of the aluminosilicate chains structure in Al-rich calcium silicate hydrated (C-S-H) gels

H. Manzano; J. S. Dolado; M. Griebel; J. Hamaekers

doi:10.1002/pssa.200778175

A molecular dynamics study of the aluminosilicate chains structure in Al-rich calcium silicate hydrated (C-S-H) gels

H. Manzano^*, J. S. Dolado, M. Griebel, J. Hamaekers

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

70 Citations (Scopus)

Abstract

Calcium silicate hydrated (C-S-H) gel is the principal binding phase of the cement paste and responsible for its strength. It is basically composed of silicate chains held together with CaO layers, where different guest ions can enter its structure. In particular, the substitution of Al in the silicate chains is expected to play a decisive role for the resulting properties of the cementitious materials. This work explores by means of molecular dynamics simulation the incorporation of aluminium into C-S-H gel. For that purpose we simulate the polymerisation of C-S-H gel in presence of Al atoms and analyse both the connectivity of the (alumino)silicate chains and the position of the aluminium atoms within the structure of C-S-H gel.

Original language	English
Pages (from-to)	1324-1329
Number of pages	6
Journal	Physica Status Solidi (A) Applications and Materials Science
Volume	205
Issue number	6
DOIs	https://doi.org/10.1002/pssa.200778175
Publication status	Published - Jun 2008

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title = "A molecular dynamics study of the aluminosilicate chains structure in Al-rich calcium silicate hydrated (C-S-H) gels",

abstract = "Calcium silicate hydrated (C-S-H) gel is the principal binding phase of the cement paste and responsible for its strength. It is basically composed of silicate chains held together with CaO layers, where different guest ions can enter its structure. In particular, the substitution of Al in the silicate chains is expected to play a decisive role for the resulting properties of the cementitious materials. This work explores by means of molecular dynamics simulation the incorporation of aluminium into C-S-H gel. For that purpose we simulate the polymerisation of C-S-H gel in presence of Al atoms and analyse both the connectivity of the (alumino)silicate chains and the position of the aluminium atoms within the structure of C-S-H gel.",

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AU - Manzano, H.

AU - Dolado, J. S.

AU - Griebel, M.

AU - Hamaekers, J.

PY - 2008/6

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N2 - Calcium silicate hydrated (C-S-H) gel is the principal binding phase of the cement paste and responsible for its strength. It is basically composed of silicate chains held together with CaO layers, where different guest ions can enter its structure. In particular, the substitution of Al in the silicate chains is expected to play a decisive role for the resulting properties of the cementitious materials. This work explores by means of molecular dynamics simulation the incorporation of aluminium into C-S-H gel. For that purpose we simulate the polymerisation of C-S-H gel in presence of Al atoms and analyse both the connectivity of the (alumino)silicate chains and the position of the aluminium atoms within the structure of C-S-H gel.

AB - Calcium silicate hydrated (C-S-H) gel is the principal binding phase of the cement paste and responsible for its strength. It is basically composed of silicate chains held together with CaO layers, where different guest ions can enter its structure. In particular, the substitution of Al in the silicate chains is expected to play a decisive role for the resulting properties of the cementitious materials. This work explores by means of molecular dynamics simulation the incorporation of aluminium into C-S-H gel. For that purpose we simulate the polymerisation of C-S-H gel in presence of Al atoms and analyse both the connectivity of the (alumino)silicate chains and the position of the aluminium atoms within the structure of C-S-H gel.

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A molecular dynamics study of the aluminosilicate chains structure in Al-rich calcium silicate hydrated (C-S-H) gels

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