Cracks and stains on façade‐cladding made of carbonate rock thin panels

Emerald - Tập 30 Số 2 - Trang 130-144 - 2012
RonanHébert1, LaylaBeouch2, OdileFichet2, Jean‐PhilippeBigas3, DominiqueTeyssié2, BenoitBerthier1, Jean‐BaptistePrichystal4
1Géosciences Environnement Cergy, Université de Cergy‐Pontoise, Cergy‐Pontoise, France
2Laboratoire de Physico‐chimie des Polyméres et des Interfaces, Université de Cergy‐Pontoise, Cergy‐Pontoise, France
3CHRYSO, Sermaises Du Loiret, France
4Veolia Environmental Services, Nanterre cedex, France

Tóm tắt

PurposeThis paper aims to present a case study of some current disorders affecting the stone‐panels of façade claddings, i.e. cracking, spalling close to anchorage systems and staining. The purpose of this study is to identify the origin of the mechanical and chemical disorders of the carbonate rock thin panels of the “Les Chênes 1” building of the University of Cergy‐Pontoise (France).Design/methodology/approachMapping of the disorders, anchorage system investigation at spallings, chemical analyses of oil‐like stains were performed in order to characterize both disorders. Porosity and capillarity properties of the rock were measured and compared between samples collected outside and within a stain.FindingsMechanical disorders result from vandalism or poor implementation. Spallings are disorders very likely in evolution. Their occurrence may increase through time. Stains are made of silicone destabilization products.Originality/valueA model is proposed for the formation of oil‐like stains. Water is required to destabilize silicone sealant and to drive the migration of the degradation products through the porous media and towards the surface of the plate exposed to rainfall.

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Tài liệu tham khảo

Akesson, U., Lindqvist, J.E., Schouenborg, B. and Grelk, B. (2005), “Relationship between microstructure and bowing properties of calcite marble claddings”, Bulletin of Engineering Geology and the Environment, Vol. 65 No. 1, pp. 73‐9.

Bouineau, A. and Perrier, R. (1995), “La décohésion granulaire, maladie des façades en marbre”, Mines et Carrie`res – Industrie Minérale, Vol. 147, pp. 69‐75.

Chau, K.T. and Shao, J.F. (2006), “Subcritical crack growth of edge and center cracks in façade rock panels subject to periodic surface temperature variations”, International Journal of Solids and Structures, Vol. 43, pp. 807‐27.

Chew, M.Y.L. and Ping, T.P. (2003), Staining of façades, World Scientific Publishing Co. Pte. Ltd, Singapore.

Chew, M.Y.L. and Tan, P.P. (2003), “Façade staining arising from design features”, Construction and Building Materials, Vol. 3 No. 3, pp. 181‐7.

Hartog, P. and McKenzie, P. (2004), “The effects of alkaline solutions on limestone”, Discovering Stone, Vol. 3 No. 6, pp. 34‐49.

Koch, A. and Siegesmund, S. (2004a), “Bowing of marble panels: on‐site damage analysis from the University Library Building at Goettingen (Germany)”, paper presented at the 10th International Congress on Deterioration and Conservation of Stone, Stockholm, 27 June‐2 July.

Koch, A. and Siegesmund, S. (2004b), “The combined effect of moisture and temperature on the anomalous expansion behaviour of marble”, Environmental Geology, Vol. 46 No. 3, pp. 350‐63.

Logan, J.M. (2004), “Laboratory and case studies of thermal cycling and stored strain on the stability of selected marbles”, Environmental Geology, Vol. 46 No. 3, pp. 456‐67.

Logan, J.M. (2006), “On‐site and laboratory studies of strength loss in marble on building exteriors”, in Kouroulis, S.K. (Ed.), Fracture and Failure of Natural Building Stones, Springer, Dordrecht, pp. 345‐62.

Logan, J.M., Hastedt, M., Lehnert, D. and Denton, M. (1993), “A case study of the properties of marble as building veneer”, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Vol. 30 No. 7, pp. 1531‐7.

Nakayama, M. (1999), “Staining caused by effect of sealing compound on stone cladding”, Journal of Structural and Construction Engineering, Vol. 518, pp. 9‐16.

Nakayama, M. and Sasaki, M. (1998), “Investigation of migration of organic silicone into stone and its prevention”, Journal of Structural and Construction Engineering, Vol. 509, pp. 17‐23.

Nakayama, M. and Takei, Y. (1988), “Stains Caused by sealing compound on stone cladding”, Proceedings of the VIth International Congress on Deterioration and Conservation of Stone, Nicholas Copernicus University, Torun, 12‐14 September.

NF P65‐202 (2000), “Coatings stone wall thin”, DTU 55.2, AFNOR, pp. 1‐64.

Parnham, P. (1999), Prevention of Premature Staining of New Buildings, Spon Press, London.

Perrier, R. and Bouineau, A. (1997), “The descohesion termica in mármoles y calizas marmorea”, Roc Maquina, pp. 59‐69.

Royer‐Carfagni, G. (1999), “Some considerations on the warping of marble façades: the example of Alvar Aalto's Finland Hall in Helsinki”, Construction and Building Materials, Vol. 13 No. 8, pp. 449‐57.

Siegesmund, S., Ruedrich, J. and Koch, A. (2008), “Marble bowing: comparative studies of three different public building façades”, Environmental Geology, Vol. 56 No. 3, pp. 473‐94.

Siegesmund, S., Ullemeyer, K., Weiss, T. and Tscheg, E.K. (2000), “Physical weathering of marbles caused by anisotropic thermal expansion”, International Journal of Earth Sciences, Vol. 89 No. 1, pp. 170‐82.

TEAM (2005), “Testing and assessment of marble and limestone”, A European Research Project in the EU – DG XII – Competitive and Sustainable Growth Programme, TEAM, Boraas, p. 133.

SMABTP fiches techniques (n.d.), available at: www.smabtp.fr/assurancesbtp/prevention/fichetech8

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Emerald

Tập 30 Số 2

130-144

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