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Current trends in development of lime based composites

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Prior to the beginning of this century, lime dominance as a building material particularly, lime mortar was incontrovertible. Reminiscence of this is reflected in many buildings of historic references which stand till date as their durability features are predominantly attributed to lime’s inherent properties of flexibility, plasticity and breathability, among others. However, lime’s characteristic long ‘setting and hardening’ periods, low mechanical strength and poor internal cohesion coupled with subsequent discovery of Portland cement put its use into decline. In this paper, new approaches involving lime based composites aimed at maximising lime’s sterling features while improving its identified shortcomings are highlighted. The focus is particularly on lime based mortars blended with cement and ‘Ground Granulated Blast Furnace Slag’ (slag) in varying compositions individually, for improved performances. As this effort attempts to evolve lime revival for new constructions, it will also serve as a befitting response to the phenomena climate change with a view to minimising construction impacts on the environment.
Rocznik
Strony
49--54
Opis fizyczny
Bibliogr. 28 poz., wykr.
Twórcy
  • Glasgow Caledonian University, School of Engineering and Built Environment, 70 Cowcaddens road, G4 0BA, Glasgow, UK
autor
  • Glasgow Caledonian University, School of Engineering and Built Environment, 70 Cowcaddens road, G4 0BA, Glasgow, UK
Bibliografia
  • [1] Ventolà, L., Vendrell, M., & Giraldez, P. “Newly-designed traditional lime mortar with a phase change material as an additive”, Construction and Building Materials, 47, pp.1210–1216 (2013)
  • [2] Forster, A.M. and Carter, K. (2011) “A Framework for Specifying Natural Hydraulic Lime Mortars for Masonry Construction”, Structural Survey Vol. 29 No. 5, pp.373-396 (2011)
  • [3] Izaguirre, A., Lanas, J., Alvarez, J.I. (2011) “Effect of water-repellent admixtures on the behaviour of aerial lime-based mortars”, Cement and Concrete Research 2009;39(11): 1095–104 (2011)
  • [4] Lanas, J., Alvarez, J.I. “Masonry Repair Lime-Based Mortars: Factors Affecting the Mechanical Behaviour”, Cement and Concrete Research 33 (2003) 1867–1876 (2003)
  • [5] Mosquera, M.J., Silva, B., Prieto, B., Ruiz-Herrera, E. “Addition of Cement to Lime-Based Mortars: Effect on Pore Structure and Vapor Transport”, Cement and Concrete Research 36 1635–1642 (2006)
  • [6] Arandigoyen, M., & Alvarez, J. I. “Blended pastes of cement and lime: Pore structure and capillary porosity”, Applied Surface Science, 252(23), pp.8077–8085 (2006)
  • [7] Dubrawski, J.V. “Thermal Characteristics of Aged Granulated Blast Furnace Slags”, Journal of Thermal Analysis, Vol. 48, pp.63-72 (1997)
  • [8] Lanas, J., Pe´rez Bernal, J.I., Bello, M.A., Alvarez Galindo, J.I. “Mechanical properties of natural hydraulic lime-based mortars”, Cement and Concrete Research 34 pp.2191–2201 (2004)
  • [9] Arandigoyen, M., & Alvarez, J. I. "Pore structure and mechanical properties of cement–lime mortars”, Cement and Concrete Research, 37(5), 767–775 (2007)
  • [10] Alan Everett “Materials: Mitchells Building Series”, Essex: Longman Scientific and Technical. pp 149-150 (1993)
  • [11] Pacheco-Torgal, F., Faria, J., Jalali, S. “Some Considerations about the Use of Lime–Cement Mortars for Building Conservation Purposes in Portugal: A Reprehensible Option or a Lesser Evil?”, Construction and Building Materials 30 pp.488–494 (2012)
  • [12] S ba bi, Y., Dheilly, R. M., & Qu neudec, M. “A study of the viscosity of lime–cement paste: influence of the physico-chemical characteristics of lime”, Construction and Building Materials, 18(9), pp.653–660 (2004)
  • [13] Arandigoyen, M., Bicer-Simsir, B., Alvarez, J.I., Lange, D.A. “Variation of Microstructure with Carbonation in Lime and Blended Pastes”, Applied Surface Science 252 pp.7562–7571 (2006)
  • [14] S baïbi, Y., Dheilly, R. M., Beaudoin, B., & Qu neudec, M. ”The effect of various slaked limes on the microstructure of a lime–cement–sand mortar. Cement and Concrete Research, 36(5), 971–978 (2006)
  • [15] Adriano, P., Santos Silva, A., Veiga, R., Mirão, J. and Candeias, A.E. “Microscopic characterisation of old mortars from the Santa Maria Church in Évora”, Materials Characterisation 60, pp.610-620 (2009)
  • [16] Sergio et al “Lime pozzolana mortars in Roman catacombs: composition, structures and restoration”, Cement and Concrete Research 35, pp.1555– 1565 (2005)
  • [17] Rakesh Kumar, Sanjay Kumar, S. Badjena, and S.P. Mehrotra “Hydration of Mechanically Activated Granulated Blast Furnace Slag”. Metallurgical and Materials Transactions Volume 36b, pp.873-883 (2005)
  • [18] Seti n, J., Hernández, D., González J.J “Characterization of ladle furnace basic slag for use as a construction material”, Construction and Building Materials; Volume 23, Issue 5, pp.1788–1794 (2009)
  • [19] Escalantea, J.I, Gomez, L.Y., Johalb, K.K., Mendozaa, G., Manchaa, H., Mendez, J. “Reactivity of Blast-Furnace Slag in Portland Cement Blends Hydrated Under Different Conditions”, Cement and Concrete Research 31, pp.1403–1409 (2001)
  • [20] Das, B., Prakash, S., Reddy, P.S.R., Misra, V.N. “An Overview of Utilization of Slag and Sludge from Steel Industries”, Resources, Conservation and Recycling 50, pp.40–57 (2007)
  • [21] Gruskovnjak, A., Lothenbach, B., Winnefeld, F., Figi, R., Ko, S.-C., Adler, M., Mäder, U. “Hydration Mechanisms of Super Sulphated Slag Cement”, Cement and Concrete Research 38, pp.983–992 (2008)
  • [22] Bellmann, F. and Stark, J. ”Activation of Blast Furnace Slag by a New Method”, Cement and Concrete Research 39, pp.644–650 (2009)
  • [23] Lumley, J.S., Gollop, R.S., Moir G.K.and Taylor H.F.W “Degrees of Reaction of the Slag in Some Blends with Portland Cements”, Cement and Concrete Research, Vol. 26, No. 1, pp.139-151 (1996)
  • [24] Abo-EI-Enein, S.A., Mikhail, R.Sh., Daimon, M. and Kondo, R. “Surface Area and Pore Structure of Hydrothermal Reaction Products of Granulated Blast Furnace Slag”, Cement and Concrete Research. Vol. 8, pp.151-160 (1977)
  • [25] Abo-El-Enein, S.A., Gabr, N.A. and Mikhail, R.S. “Morphology and Microstructure of Autoclaved Clinker and Slag-lime Pastes in presence and in absence of Silica Sand”, Cement and Concrete Research. Vol. 7, pp.231-238 (1977)
  • [26] Malhotra, S.K. and Tehri, S.P. “Development of bricks from granulated blast furnace slag”, Construction and Building Materials, Vol. 10, No. 3, pp.191-193 (1996)
  • [27] Zhijun Tan, Geert De Schutter, Guang Ye, Yun Gao, Lieven Machiels “Influence of particle size on the early hydration of slag particle activated by Ca(OH)2 solution”, Construction and Building Materials – 52, pp.488–493 (2014)
  • [28] Biernacki, J.J. and Richardson, J.M. “Kinetics of Slag Hydration in the Presence of Calcium Hydroxide”, Journal of the American Ceramic Society, Vol 85, N 9, pp.2261–67 (2002)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-18c134f8-7595-417b-b485-fa501bf7ad23
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