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Environmental Earth Sciences

Erschienen in:

01.08.2011 | Special Issue

Flaw propagation and buckling in clay-bearing sandstones

verfasst von: Timothy P. Wangler, Alisa Stratulat, Philippa Duffus, Jean H. Prévost, George W. Scherer

Erschienen in: Environmental Earth Sciences | Ausgabe 7-8/2011

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Abstract

Many historically and culturally significant buildings have sandstones that contain swelling clay inclusions in the binding phase. Differential strains that evolve during wetting and drying cycles can generate stresses that are on the order of the strength of the stone, leading to degradation. Most damage observed in the field is surface delamination and buckling of the stone over a flaw, indicating that the damage is occurring during wetting. Classical buckling theory predicts buckling to occur at a particular aspect ratio, or flaw size. The results of this study confirm buckling theory experimentally. Through finite-element simulation and experiment, the study then explores a potential flaw propagation mechanism whereby nonuniform wetting patterns generate stress intensities capable of flaw propagation. As a result, small natural flaws can grow to the critical size necessary for buckling.

Vorheriger Artikel Moisture expansion as a deterioration factor for sandstone used in buildings

Nächster Artikel Physical weathering of building stones induced by freeze–thaw action: a laboratory long-term study

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Atkinson BK (1987) Fracture mechanics of rock. Academic Press, London, p 534

Bloom F, Coffin D (2000) Handbook of thin plate buckling and postbuckling. Chapman & Hall, Boca RatonCrossRef

Delgado Rodrigues J (2001) Swelling behavior of stones and its interest in conservation. Materiales de Construcción 51(263–264):183–195CrossRef

Duffus P (2007) Mechanics of buckling of stones that expand upon exposure to moisture. Masters thesis, University of Oxford, Oxford

Espinosa-Marzal RM, Scherer GW (2010) Mechanisms of damage by salt. In: Smith BJ, Gomez-Heras M, Viles HA, Cassar J (eds) Limestone in the built environment: present-day challenges for the preservation of the past. Special Publications 331, Geological Society, London, pp 61–77

Félix C (1995) Peut-on consolider les grès tendres du Plateau suisse avec le silicate d’éthyle? (Can one consolidate the soft sandstones of the Swiss plateau with ethyl silicate?) In: Pancella R (ed) Preservation and restoration of cultural heritage. Proceedings of LCP congress, Montreux, pp 267–274

Franzini M, Leoni L, Lezzerini M, Cardelli R (2007) Relationships between mineralogical composition, water absorption and hydric dilatation in the ‘Macigno’ sandstones from Lunigiana (Massa, Tuscany). Eur J Mineral 19:113–125CrossRef

Goudie A, Viles H (1997) Salt weathering hazards. Wiley, Chichester, p 241

Huang R, Sukumar N, Prévost JH (2003) Modeling quasi-static crack growth with the extended finite element method. Part II: Numerical applications. Int J Solids Struct 40(26):7539–7552CrossRef

Hutchinson JW (1996) Mechanics of thin films and multilayers. Department of Solid Mechanics, Technical University of Denmark, pp 1–45. http://www.deas.harvard.edu/hutchinson/

Hutchinson JW, Thouless MD, Liniger EG (1992) Growth and configurational stability of circular, buckling-driven film delaminations. Acta Metall Mater 40(2):295–308CrossRef

Jiménez-González I, Scherer GW (2004) Effect of swelling inhibitors on the swelling and stress relaxation of clay bearing stones. Environ Geol 46:364–377CrossRef

Jiménez-González I, Rodríguez-Navarro C, Scherer GW (2008) Role of clay minerals in the physicomechanical deterioration of sandstone. J Geophys Res F Earth Surf 113:F02021. doi:10.1029/2007JF000845

Koestler RJ, Koestler VH, Charola AE, Nieto-Fernandez FE (eds) (2004) Art, biology, and conservation: biodeterioration of works of art (Metropolitan Museum of Art Series). Metropolitan Museum of Art, New York, p 576

Prévost JH (1983) DYNAFLOW: a nonlinear transient finite element analysis programme. Department of Civil Engineering, Princeton University, Princeton

Rodríguez-Navarro C, Hansen E, Sebastian E, Ginell W (1997) The role of clays in the deterioration of Egyptian limestone sculptures. J Am Inst Cons 36(2):151–163CrossRef

Ruedrich J, Siegesmund S (2007) Salt and ice crystallisation in porous sandstones. Environ Geol 52:225–249CrossRef

Scherer GW, Jiménez-González I (2005) Characterization of swelling in clay-bearing stone. In: Turkington AV (ed) Stone decay and conservation SP-390. Geological Society of America, pp 51–61

Sébastian E, Cultrone G, Benavente D, Fernandez LL, Elert K, Rodríguez-Navarro C (2008) Swelling damage in clay-rich sandstones used in the church of San Mateo in Tarifa (Spain). J Cult Her 9(1):66–76CrossRef

Sukumar N, Prévost JH (2003) Modeling quasi-static crack growth with the extended finite element method. Part I: Computer implementation. Int J Solids Struct 40(26):7513–7537CrossRef

Wangler TP, Scherer GW (2008) Clay swelling mechanism in clay-bearing sandstones. Environ Geol 56:529–534CrossRef

Wangler TP, Scherer GW (2009) Clay swelling inhibition mechanism of α,ω-diaminoalkanes in Portland Brownstone. J Mater Res 24(5):1646–1652CrossRef

Wendler E, Klemm DD, Snethlage R (1990) Consolidation and hydrophobic treatment of natural stone. In: Baker JM, Nixon PJ, Majumdar AJ, Davies H (eds) Proc 5th international conference on durability of building materials and components. Chapman & Hall, London, pp 203–212

Wendler E, Charola AE, Fitzner B (1996) Easter Island tuff: laboratory studies for its consolidation. In: Riederer J (ed) 8th international congress on deterioration and conservation of stone. Moller Druck und Verlag, Berlin, pp 1159–1170

Titel: Flaw propagation and buckling in clay-bearing sandstones
verfasst von: Timothy P. Wangler
Alisa Stratulat
Philippa Duffus
Jean H. Prévost
George W. Scherer
Publikationsdatum: 01.08.2011
Verlag: Springer-Verlag
Erschienen in: Environmental Earth Sciences / Ausgabe 7-8/2011
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-010-0732-y

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