Abstract
Highly hydraulic binders, known as natural or Roman cements, were key materials for the economic and easy manufacture of stuccoes for the exterior of buildings during the 19th and early 20th centuries. Roman cements were produced by burning naturally occurring deposits of calcium carbonate rich in clay minerals. They were distinguished from other hydraulic binders principally by a very short setting time, agreeable texture and colour, little shrinkage on setting and excellent weatherresistance. They were first produced in England in 1796 when James Parker patented a cement known as Parker's or Roman cement (Parker 1796 ). The material was obtained by firing clay-bearing calcareous nodules found in the London clay beds on the Isle of Sheppey, England. Despite implied links to the Roman binders, Parker's ‘Roman cement’ was a true hydraulic cement very different from the hydraulic binders used by the Romans in which pozzolanic materials, not cementitious in themselves, had combined with lime in the presence of water to form insoluble compounds possessing cementing properties. The Roman cement mortars were mainly used in construction where masonry was subjected to moisture and high levels of strength and durability were needed.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Austrian Standard for Roman Cement (1878) Österreichische Bestimmungen für die einheitliche Lieferung und Prüfung von Portland-Cement. Aufgestellt und genehmigt vom Österreichischen Ingenieur- und Architektenverein, in Tarnawski A (1887) pp 193–197, modification of 1890, in Schoch C (1896)
Bohnagen A (1914) Der Stukkateur und Gipser. Leipzig, Reprinted Verlag Leipzig, Holzmunden
Cailleux E, Marie-Victoire E, Sommain D (2006) Study of natural cements from the French Rhone- Alpes region. In: Fort R, Alvarez de Buergo M, Gomez-Heras M, Vazquez-Calvo C (eds) Proceedings of the international heritage, weathering and conservation conference (HWC-2006), 21–24 June, Madrid, Taylor and Francis, London
Decorated Renders around 1900 in Europe: Technological Studies and Principles of Conservation and Restoration. EU-Rendec, Bundesdenkmalamt, Arbeitshefte zur Baudenkmalpflege, Kartause Mauerbach, Verein Förderung der Baudenkmalpflege, Mauerbach, 1999
Eckel EC (1905) Cements, limes and plasters. 1st edn. Wiley, New York
Hughes D, Jaglin D, Kozlowski R, Mayr N, Mucha D, Weber J (2007a) Calcination of marl to produce Roman cement. Journal of the American Society for Testing Materials International, vol 4, No 1, available online at www.astm.org
Hughes D, Swann S, Gardner A (2007b) Roman cements Part 1: its origins and properties. Journal of Architectural Conservation 13(1):21–37
Hughes D, Swann S, Gardner A (2007c) Roman cements Part 2: stucco and decorative elements, a conservation strategy. Journal of Architectural Conservation 13(3):41–58
Hughes D, Sugden D, Jaglin D, Mucha D (2008) Calcination of Roman cement: a pilot study using cement stones from Whitby. Construction Building Materials 22:1446–1455
Hughes D, Jaglin D, Kozlowski R, Mucha D (2009) Roman cements—belite cements calcined at low temperature. Cement and Concrete Research 39:77–89
Parker J (1796) A certain cement or terras to be used in aquatic and other buildings and stucco work. British Patent 2120, dated 27 July to James Parker of Northfleet
Pasley CW (1830) Observations, deduced from experiment, upon the natural water cements of England, and on the artificial cements, that may be used as substitutes for them. Printed by authority, at the Establishment for Field Instruction
Pecconi E, Malesani P, Bellucci B, Fratini F (2005) Artificial stones utilised in Florence historical palaces between the XIX and XX centuries. Journal of Cultural Heritage 6:227–233
Schoch C (1896) Die moderne Aufbereitung der Mörtel-Materialien, Verlag der Thonindustrie- Zeitung, Berlin
Tarnawski A (1887) Kalk, Gyps, Cementkalk und Portland-Cement in Österreich-Ungarn. Selbstverlag, Wien
Tislova R, Kozlowska A, Kozlowski R, Hughes D (2009) Porosity and specific surface area of Roman cement pastes. Cement and Concrete Research doi:10.1016/j.cemconres.2009.06.020
Varas MJ, Alvarez de Buergo M, Fort R (2005) Natural cement as the precursor of Portland cement: Methodology for its identification. Cement and Concrete Research 35:2055–2065
Vicat LJ (1828), Résumé des connaissances positives actuelles sur les qualités, le choix et la convenance réciproque des matériaux propres à la fabrication des mortiers et ciments calcaires. Paris
Vicat LJ (1837) A practical and scientific treatise on calcareous mortars and cements, artifical and natural, (trans: Captain JT Smith, John Weale, London, (1837). Reprinted in Fascimile by Donhead publications Ltd 1997)
Vyskocilova R, Schwarz W, Mucha D, Hughes D, Kozlowski R, Weber J (2007) Hydration processes in pastes of Roman and natural American cements. Journal of the American Society for Testing Materials International 4(2). available online at www.astm.org
Weber J, Mayr N, Bayer K, Hughes D, Kozlowski R, Stillhammerova M, Ullrich D, Vyskocilova R (2007) Roman cement mortars in Europe's architectural heritage of the 19th century. Journal of the American Society for Testing Materials International 4(8), available online at www.astm.org
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2010 Springer Science+Business Media B.V.
About this chapter
Cite this chapter
Kozłowski, R., Hughes, D., Weber, J. (2010). Roman Cements: Key Materials of the Built Heritage of the 19th Century. In: Dan, M.B., Přikryl, R., Török, Á. (eds) Materials, Technologies and Practice in Historic Heritage Structures. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-2684-2_14
Download citation
DOI: https://doi.org/10.1007/978-90-481-2684-2_14
Publisher Name: Springer, Dordrecht
Print ISBN: 978-90-481-2683-5
Online ISBN: 978-90-481-2684-2
eBook Packages: EngineeringEngineering (R0)