Thaumasite – Part 2: Origins, ramifi cations and discussions related to the ‘Thaumasite Expert Group Report’
 
 
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Materials Chemistry Centre, UCL, London WC1H 0AJ, UK
 
 
Publication date: 2007-09-01
 
 
Cement Wapno Beton 12(5) 248-260 (2007)
 
 
REFERENCES (32)
1.
J. Bensted: Thaumasite – Part 1: The route to current understanding. Cement-Wapno-Beton (in press).
 
2.
Department of Environment, Transport and the Regions: The thaumasite form of sulphate attack: Risks, diagnosis, remedial works and guidance on new construction. Report of the Thaumasite Expert Group, DETR, London (1999).
 
3.
J. Bensted: Thaumasite – confusion surrounding the terms TF and TSA. Concrete 40 , (9), 94 (2006).
 
4.
N.J. Crammond: The thaumasite form of sulphate attack in the UK. Cement & Concrete Composites 25 (8), 809-818 (2003).
 
5.
S. Hartshorn, J. Sharp and R.N. Swamy: Thaumasite formation in Portland limestone cement pastes. Cement and Concrete Research 29, 1331-1340 (1999).
 
6.
P. Nixon and I. Longworth: Thaumasite Expert Group Report: Review after three years experience. Concrete 37, No. 4, 22-25 (2003).
 
7.
Building Research Establishment: BRE Special Digest 1: Concrete in aggressive ground, 3rd Edition. CRC, London (2005).
 
8.
British Cement Association: BCA Guide: Specifying concrete to BS EN 206-1/BS 8500: Concrete resistant to chemical attack. BCA, Crowthorne (2001).
 
9.
British Standards Institution: BS 8500:2002: Concrete – Complementary British Standard to BS EN 206-1. Part 1: Method of specifying and guidance for the specifi er. Part 2: Specifi cation for constituent materials and concrete. BSI, London (2002).
 
10.
J. Bensted: Thaumasite – three-year review. Concrete 37, No. 8, 7 (2003).
 
11.
S. Chladzynski: Wplyw obnizonej temperatury na odpornosc zapraw z cementów z dodatkami mineralnymi na korozje siarczanowa. / Infl uence of lowered temperature on the sulphate corrosion resistance of cement mortars with mineral additions. Cement-Wapno-Beton No. 4, 204-214 (2005).
 
12.
S. Chladzynski: Wplyw obnizonej temperatury na odpornosc zapraw z cementów z dodatkami mineralnymi na dzialanie wody morskiej. / Infl uence of lowered temperature on the seawater resistance of cement mortars with mineral additions. Cement-Wapno-Beton No. 5, 283-294 (2005).
 
13.
I. Sims and S.A. Huntley: The thaumasite form of sulphate attack – breaking the rules. Cement & Concrete Composites 26, 837-844 (2004).
 
14.
G. Collett, N.J. Crammond, R.N. Swamy and J.H. Sharp: The role of carbon dioxide in the formation of thaumasite. Cement and Concrete Research 34 (9), 1599-1612 (2004).
 
15.
Q. Zhou, J. Hill, E.A. Byars, J.C. Cripps, C.J. Lynsdale and J.H. Sharp: The role of pH in thaumasite sulphate attack. Cement and Concrete Research 36 (1), 160-170 (2006).
 
16.
J. Bensted: Mechanism of thaumasite sulphate attack in cements, mortars and concretes. Zement-Kalk-Gips International 53 (12), 704-709 (2000).
 
17.
J. Bensted: Problemi che si verifi cano nell’identifi cazione della thaumasite. / Problems arising in the identifi cation of thaumasite. Il Cemento 74, No. 3, 81-90 (1977).
 
18.
J. Bensted and S.P. Varma: Studies of thaumasite – Part II. Silicates Industriels 39 (1), 11-19 (1974).
 
19.
G. Bissert and F. Liebau: Die Kristallstruktur von monoklinem Siliziumphosphat SiP2O7AIII. Acta Crystallographica 26B, 233-240 (1970).
 
20.
F. Liebau: Zur Kristallchemie der sechsfach koordinierten Siliziums. Bulletin de la Société Française de Minéralogie et Cristallographie 94, 239-249 (1971).
 
21.
H. Mayer: Die Kristallstruktur von Si5O(PO4)6. Monatshefte für Chemie 105, 46-54 (1974).
 
22.
T.L. Weeding, B.H.W.S. de Jong, W.S. Weeman and B.G. Aitken: Silicon coordination changes from 4-fold to 6-fold on devitrifi cation of silicon phosphate glass. Nature (London) 318, 352-353 (1985).
 
23.
W. Hinz: Silicat-Lexikon, p.794. VEB Akademie-Verlag, Berlin (1985).
 
24.
J. Bensted: Problemi che si verifi cano nell’identifi cazione della thaumasite. / Problems arising in the identifi cation of thaumasite. Il Cemento 74 (3), 81-90 (1977).
 
25.
J.A. Ray: Things petrographic examination can and cannot do with concrete. Part 2. Some basics and guidelines. Proceedings of the 22nd International Conference on Cement Microscopy, Montreal, Quebec, Canada, 29 April to 4 May, 2000, pp. 65-78. International Cement Microscopy Association, Metropolis, Illinois, USA (2000).
 
26.
S. Hartshorn: Thaumasite – a brief guide for engineers. Concrete 32 (8), 24-27 (1998).
 
27.
J. Bensted: Direct, woodfordite and other possible formation routes. Cement & Concrete Composites 25, 873-877 (2003).
 
28.
U. Ludwig and S. Mehr: Destruction of historic buildings by the formation of ettringite or thaumasite. 8th International Congress on the Chemistry of Cement, Rio de Janeiro, 1986, Vol. V, Communications, pp. 181-188. FINEP, Rio de Janeiro (1988).
 
29.
G. Baronio and M. Berra: Alterazione di un calcestruzzo con formazione di thaumasite – analisi delle cause del degrado. / Concrete deterioration with the formation of thaumasite – analysis of the causes. Il Cemento 83 (3), 169-184 (1986).
 
30.
M. Collepardi: Degradation and restoration of masonry walls of historic buildings. Materials and Structures 23, 81-102 (1990).
 
31.
M. Collepardi: Thaumasite formation and deterioration in historic buildings. Cement and Concrete Composites 21 (2), 147-154 (1999).
 
32.
V. Tesch and B. Middendorf: Occurrence of thaumasite in gypsum lime mortars for restoration. Cement and Concrete Research 36 (8), 1516-1522 (2006).
 
ISSN:1425-8129
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