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2014 | OriginalPaper | Chapter

7. Limestone

Author : Ali Akbar Ramezanianpour

Published in: Cement Replacement Materials

Publisher: Springer Berlin Heidelberg

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Abstract

One of the materials being introduced to blended cements as a constituent is limestone or calcium carbonate (CaCO3). This has led to the production of Portland-limestone cement, i.e. cements that have been interground with limestone. Most Portland cement specifications allow the use of up to 5 % limestone. Beyond that, Portland-limestone cements are categorized based on the percentage of limestone added to the cement. Portland-limestone cements consisting of limestone from 5 % up to about 40 % are being produced and used in various countries around the world, with the most commonly used cement type used in Europe being CEM II/A composite cement with 5–20 % limestone. Also, different standards have stated specifications in regards to the amount of limestone used in Portland-limestone cements.

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Literature
1.
go back to reference M. Schmidt, Cement with interground additives–capabilities and environmental relief, part 1. Zement-Kalk-Gips 45(2), 64–69 (1992) M. Schmidt, Cement with interground additives–capabilities and environmental relief, part 1. Zement-Kalk-Gips 45(2), 64–69 (1992)
2.
go back to reference G.K. Moir, Limestone cements, gaining acceptance. Int. Cement Rev. (2003) G.K. Moir, Limestone cements, gaining acceptance. Int. Cement Rev. (2003)
3.
go back to reference CEMBUREAU, Cement Standards of the World 1991 (CEMBUREAU, Brussels, 1991) CEMBUREAU, Cement Standards of the World 1991 (CEMBUREAU, Brussels, 1991)
4.
go back to reference P. Hawkins, Personal Communication to R. E. Gebhardt, 10 October 1986. P. Hawkins, P. Tennis, R. Detwiler, The Use of Limestone in Portland Cement: A State-of-the-Art Review (Portland Cement Association, EB227, 2005) P. Hawkins, Personal Communication to R. E. Gebhardt, 10 October 1986. P. Hawkins, P. Tennis, R. Detwiler, The Use of Limestone in Portland Cement: A State-of-the-Art Review (Portland Cement Association, EB227, 2005)
5.
go back to reference L. Opoczky, Progress of particle size distribution during the intergrinding of a clinkerlimestone mixture. Zement Kalk Gips 45(12), 648 (1992) L. Opoczky, Progress of particle size distribution during the intergrinding of a clinkerlimestone mixture. Zement Kalk Gips 45(12), 648 (1992)
6.
go back to reference N. Voglis, G. Kakali, E. Chaniotakis, S. Tsivilis, Portland-limestone cements. Their properties and hydration compared to those of other composite cements. Cement Concr. Compos. 27, 191–196 (2005) N. Voglis, G. Kakali, E. Chaniotakis, S. Tsivilis, Portland-limestone cements. Their properties and hydration compared to those of other composite cements. Cement Concr. Compos. 27, 191–196 (2005)
7.
go back to reference T. Vuk, V. Tinta, R. Gabrovˇsek, V. Kauˇciˇc, V, The effects of limestone addition, clinker type, and fineness on properties of Portland cement. Cement Concr. Res. 31(1), 481–489 (2001) T. Vuk, V. Tinta, R. Gabrovˇsek, V. Kauˇciˇc, V, The effects of limestone addition, clinker type, and fineness on properties of Portland cement. Cement Concr. Res. 31(1), 481–489 (2001)
8.
go back to reference S. Tsivilis, E. Chaniotakis, E. Badogiannis, G. Pahoulas, A. Ilias, A study on the parameters affecting the properties of Portland limestone cements. Cement Concr. Compos. 21(2), 107–116 (1999) S. Tsivilis, E. Chaniotakis, E. Badogiannis, G. Pahoulas, A. Ilias, A study on the parameters affecting the properties of Portland limestone cements. Cement Concr. Compos. 21(2), 107–116 (1999)
9.
go back to reference L.D. Adams, R.M. Race, in Effect of Limestone Additions Upon Drying Shrinkage of Portland Cement Mortar, ed. by P. Klieger, R.D. Hooton. Carbonate Additions to Cement, ASTM STP 1064 (American Society for Testing and Materials, Philadelphia, 1990), pp. 41–50 L.D. Adams, R.M. Race, in Effect of Limestone Additions Upon Drying Shrinkage of Portland Cement Mortar, ed. by P. Klieger, R.D. Hooton. Carbonate Additions to Cement, ASTM STP 1064 (American Society for Testing and Materials, Philadelphia, 1990), pp. 41–50
10.
go back to reference I. Soroka, N. Stern, Effect of calcareous fillers on sulfate resistance of Portland cement. Am. Ceram. Soc. Bull. 55(6), 594–595 (1976) I. Soroka, N. Stern, Effect of calcareous fillers on sulfate resistance of Portland cement. Am. Ceram. Soc. Bull. 55(6), 594–595 (1976)
11.
go back to reference V. Bonavetti, H. Donza, G. Menéndez, O. Cabrera, E.F.Irassar, Limestone filler cement in low w/c concrete: A rational use of energy. Cement Concr. Res. 33, 865–871 (2003) V. Bonavetti, H. Donza, G. Menéndez, O. Cabrera, E.F.Irassar, Limestone filler cement in low w/c concrete: A rational use of energy. Cement Concr. Res. 33, 865–871 (2003)
12.
go back to reference G. Kakali, S. Tsivilis, A. Skaropoulou, J.H. Sharp, R.N. Swamy, Parameters affecting thaumasite formation in limestone cement mortar. Proceedings of the 1st International Conference on Thaumasite in Cementitious Materials (Building Research Establishment, U.K, 2002) G. Kakali, S. Tsivilis, A. Skaropoulou, J.H. Sharp, R.N. Swamy, Parameters affecting thaumasite formation in limestone cement mortar. Proceedings of the 1st International Conference on Thaumasite in Cementitious Materials (Building Research Establishment, U.K, 2002)
13.
go back to reference V. Bonavetti, H. Donza, V. Rahhal, E.F. Irassar, High-strength concrete with limestone filler cements. Proceedings of the 2nd CANMET/ACI International Conference on High-Performance Concrete and Performance and Quality of Concrete Structures, ACI SP-186, American Concrete Institute, Detroit, 567–580 (1999) V. Bonavetti, H. Donza, V. Rahhal, E.F. Irassar, High-strength concrete with limestone filler cements. Proceedings of the 2nd CANMET/ACI International Conference on High-Performance Concrete and Performance and Quality of Concrete Structures, ACI SP-186, American Concrete Institute, Detroit, 567–580 (1999)
14.
go back to reference V. Bonavetti, H. Donza, V. Rahhal, E. Irassar, Influence of initial curing on the properties of concrete containing limestone blended cement. Cement Concr. Res. 30(5), 703–708 (2000) V. Bonavetti, H. Donza, V. Rahhal, E. Irassar, Influence of initial curing on the properties of concrete containing limestone blended cement. Cement Concr. Res. 30(5), 703–708 (2000)
15.
go back to reference H. El-Didamony, T. Salem, N. Gabr, T. Mohamed, Limestone as a retarder and filler in limestone blended cement. Ceramics—Silikaty 39(1), 15–19 (1995) H. El-Didamony, T. Salem, N. Gabr, T. Mohamed, Limestone as a retarder and filler in limestone blended cement. Ceramics—Silikaty 39(1), 15–19 (1995)
16.
go back to reference M. Heikal, I. Helmy, H. El-Didamony, F. Abd El-Raoof, Electrical properties, phsysio-chemical and mechanical characteristics of fly ash-limestone-filled pozzolanic cement. Ceramics—Silikáty 48(2), 49–58 (2004) M. Heikal, I. Helmy, H. El-Didamony, F. Abd El-Raoof, Electrical properties, phsysio-chemical and mechanical characteristics of fly ash-limestone-filled pozzolanic cement. Ceramics—Silikáty 48(2), 49–58 (2004)
17.
go back to reference Z. Guemmadi, G. Escadeillas, H. Houari, P. Clastres, B. Toumi, Influence of limestone fillers on the mechanical performances of cement pastes. Proceedings International Conference on Cement Combinations for Durable Concrete. 339–350 (2005) Z. Guemmadi, G. Escadeillas, H. Houari, P. Clastres, B. Toumi, Influence of limestone fillers on the mechanical performances of cement pastes. Proceedings International Conference on Cement Combinations for Durable Concrete. 339–350 (2005)
18.
go back to reference A.A. Ramezanianpour et al., Influence of various amounts of limestone powder on performance of Portland limestone cement concrete. Cement Concr. Compos. 31, 715–720, ISI (2009) A.A. Ramezanianpour et al., Influence of various amounts of limestone powder on performance of Portland limestone cement concrete. Cement Concr. Compos. 31, 715–720, ISI (2009)
19.
go back to reference R.J. Detwiler, Effects on Cement of High Efficiency Separators (Research and Development Bulletin RD110T, Portland Cement Association, Skokie, 1995) R.J. Detwiler, Effects on Cement of High Efficiency Separators (Research and Development Bulletin RD110T, Portland Cement Association, Skokie, 1995)
20.
go back to reference M. Schmidt, Cement with interground additives–capabilities and environmental relief, part 2. Zement-Kalk-Gips 45(6), 296–301 (1992) M. Schmidt, Cement with interground additives–capabilities and environmental relief, part 2. Zement-Kalk-Gips 45(6), 296–301 (1992)
21.
go back to reference J. Albeck, B. Sutej, Characteristics of Concretes Made of Portland Limestone Cement, Beton, vol. 41, no. 5, pp. 240–244. (In German, English translation by Susan U. Lauer available from PCA Library) (1991) J. Albeck, B. Sutej, Characteristics of Concretes Made of Portland Limestone Cement, Beton, vol. 41, no. 5, pp. 240–244. (In German, English translation by Susan U. Lauer available from PCA Library) (1991)
22.
go back to reference K. Kanazawa, K. Yamada, S. Sogo, Properties of low-heat generating concrete containing large volumes of blast-furnace slag and fly ash, ed. by V.M. Malhotra. Fly Ash, Silica Fume, Slag, and Natural Pozzolans in Concrete, Proceedings, Fourth International Conference, Istanbul, Turkey, ACI SP-132 May 1992, pp. 97–117 K. Kanazawa, K. Yamada, S. Sogo, Properties of low-heat generating concrete containing large volumes of blast-furnace slag and fly ash, ed. by V.M. Malhotra. Fly Ash, Silica Fume, Slag, and Natural Pozzolans in Concrete, Proceedings, Fourth International Conference, Istanbul, Turkey, ACI SP-132 May 1992, pp. 97–117
23.
go back to reference V. Alunno-Rosetti, F. Curcio, A Contribution to the Knowledge of the Properties of Portland-Limestone Cement Concretes, with Respect to the Requirements of European and Italian Design Code. Ed. by H. Justnes. Proceedings of the 10th International Congress on the Chemistry of Cement, Gothenburg, Sweden, 2–6 June 1997, p. 3v026, 6 p V. Alunno-Rosetti, F. Curcio, A Contribution to the Knowledge of the Properties of Portland-Limestone Cement Concretes, with Respect to the Requirements of European and Italian Design Code. Ed. by H. Justnes. Proceedings of the 10th International Congress on the Chemistry of Cement, Gothenburg, Sweden, 2–6 June 1997, p. 3v026, 6 p
24.
go back to reference J. Péra, S. Husson, B. Guilhot, Influence of finely ground limestone on cement hydration. Cement Concr. Compos. 21(2) 99–105 (1999) J. Péra, S. Husson, B. Guilhot, Influence of finely ground limestone on cement hydration. Cement Concr. Compos. 21(2) 99–105 (1999)
25.
go back to reference A.P. Barker, J.D. Matthews, Heat release characteristics of limestone-filled cements. Performance of limestone-filled cements: Report of joint BRE/BCA/Cement Industry Working Party, 28 November 1989. (Building Research Establishment, Garston, Watford, England, 1993) A.P. Barker, J.D. Matthews, Heat release characteristics of limestone-filled cements. Performance of limestone-filled cements: Report of joint BRE/BCA/Cement Industry Working Party, 28 November 1989. (Building Research Establishment, Garston, Watford, England, 1993)
26.
go back to reference P. Livesey, in Performance of Limestone-Filled Cements, ed. by R.N. Swamy. (Blended Cements in Construction, Elsevier, 1991) pp. 1–15 P. Livesey, in Performance of Limestone-Filled Cements, ed. by R.N. Swamy. (Blended Cements in Construction, Elsevier, 1991) pp. 1–15
27.
go back to reference S. Sprung, E. Siebel, Assessment of the suitability of limestone for producing Portland limestone cement (PKZ). Zement-Kalk-Gips 44(1), 1–11 (1991) S. Sprung, E. Siebel, Assessment of the suitability of limestone for producing Portland limestone cement (PKZ). Zement-Kalk-Gips 44(1), 1–11 (1991)
28.
go back to reference P. Livesey, Strength characteristics of Portland-Limestone cements. Constr. Build. Mater. 5(3), 147–150 (1991) P. Livesey, Strength characteristics of Portland-Limestone cements. Constr. Build. Mater. 5(3), 147–150 (1991)
29.
go back to reference A.A. Ramezanianpour, E. Ghiasvand, I. Nikseresht, F. Moodi, M.E. Kamel, Engineering Properties and Durability of Concretes Containing Limestone Cements. Second International Conference on Sustainable Construction Materials and Technologies, Ancona, Italy 28–30 June 2010 A.A. Ramezanianpour, E. Ghiasvand, I. Nikseresht, F. Moodi, M.E. Kamel, Engineering Properties and Durability of Concretes Containing Limestone Cements. Second International Conference on Sustainable Construction Materials and Technologies, Ancona, Italy 28–30 June 2010
30.
go back to reference R.K. Dhir, M.C. Limbachiya, M.J. McCarthy, A. Chaipanich, Evaluation of portland limestone cements for use in concrete construction. Mater. Struct. 40, 459–473 (2007) R.K. Dhir, M.C. Limbachiya, M.J. McCarthy, A. Chaipanich, Evaluation of portland limestone cements for use in concrete construction. Mater. Struct. 40, 459–473 (2007)
31.
go back to reference E.F. Irassar, V.L. Bonavetti, G. Menhdez, H. Donza, O. Cabrera, Mechanical properties and durability of concrete made with portland limestone cement. Proceedings of the 3rd CANMET/ACI International Symposium on Sustainable Development of Concrete, ACI SP-202, American Concrete Institute, Detroit, 431–450 (2001) E.F. Irassar, V.L. Bonavetti, G. Menhdez, H. Donza, O. Cabrera, Mechanical properties and durability of concrete made with portland limestone cement. Proceedings of the 3rd CANMET/ACI International Symposium on Sustainable Development of Concrete, ACI SP-202, American Concrete Institute, Detroit, 431–450 (2001)
32.
go back to reference G.K. Moir, S. Kelham, “Durability 1”, Performance of Limestone-Filled Cements: Report of Joint BRE/BCA/Cement Industry Working Party, 28 November 1989 (Building Research Establishment, Garston, 1993) G.K. Moir, S. Kelham, “Durability 1”, Performance of Limestone-Filled Cements: Report of Joint BRE/BCA/Cement Industry Working Party, 28 November 1989 (Building Research Establishment, Garston, 1993)
33.
go back to reference J.D. Matthews, in Performance of limestone filler cement concrete, ed. by R.K. Dhir, M.R. Jones. In Euro-Cements–Impact of ENV 197 on Concrete Construction (E&FN Spon, London, 1994), pp. 113–147 J.D. Matthews, in Performance of limestone filler cement concrete, ed. by R.K. Dhir, M.R. Jones. In Euro-Cements–Impact of ENV 197 on Concrete Construction (E&FN Spon, London, 1994), pp. 113–147
34.
go back to reference J. Baron, in The Durability of Limestone Composite Cements in the Context of the French Specifications, ed. by L.-O. Nilsson. Durability of Concrete: Aspects of Admixtures and Industrial Byproducts, International Seminar, April 1986 Swedish Council for Building Research (1988), pp. 115–122 J. Baron, in The Durability of Limestone Composite Cements in the Context of the French Specifications, ed. by L.-O. Nilsson. Durability of Concrete: Aspects of Admixtures and Industrial Byproducts, International Seminar, April 1986 Swedish Council for Building Research (1988), pp. 115–122
35.
go back to reference Y. Tezuka, D. Gomes, J.M. Martins, J.G. Djanikian, in Durability Aspects of Cements with High Limestone Filler Content. 9th International Congress of the Chemistry of Cement, New Delhi, India, vol. V, pp. 53–59 (1992) Y. Tezuka, D. Gomes, J.M. Martins, J.G. Djanikian, in Durability Aspects of Cements with High Limestone Filler Content. 9th International Congress of the Chemistry of Cement, New Delhi, India, vol. V, pp. 53–59 (1992)
36.
go back to reference V.S. Ramachandran, R.F. Feldman, J.J Beaudoin, Influence of sea water solution on mortar containing calcium carbonate. Mater. Struct. 3(138), 412–417 (1990) V.S. Ramachandran, R.F. Feldman, J.J Beaudoin, Influence of sea water solution on mortar containing calcium carbonate. Mater. Struct. 3(138), 412–417 (1990)
37.
go back to reference J. Deja, J. Malolepszy, G. Jaskiewicz, in Influence of Chloride Corrosion of the Durability of Reinforcement in the Concrete, ed. by V.M. Malhotra. Durability of Concrete, Second International Conference, Montréal, Canada 1991, ACI SP-126, pp. 511–525 J. Deja, J. Malolepszy, G. Jaskiewicz, in Influence of Chloride Corrosion of the Durability of Reinforcement in the Concrete, ed. by V.M. Malhotra. Durability of Concrete, Second International Conference, Montréal, Canada 1991, ACI SP-126, pp. 511–525
38.
go back to reference E.F. Irasser, V.L. Bonavetti, M.A. Trezza, M.A. González, Thaumasite formation in limestone filler cements exposed to sodium sulphate solution at 20°C. Cement Concr. Compos. 27, 77–84 (2005) E.F. Irasser, V.L. Bonavetti, M.A. Trezza, M.A. González, Thaumasite formation in limestone filler cements exposed to sodium sulphate solution at 20°C. Cement Concr. Compos. 27, 77–84 (2005)
39.
go back to reference M.A. Gonzáles, E.F. Irassar, Effect of limestone filler on the sulfate resistance of low C3A Portland cement. Cement Concr. Res. 28(11), 1655–1667 (1998) M.A. Gonzáles, E.F. Irassar, Effect of limestone filler on the sulfate resistance of low C3A Portland cement. Cement Concr. Res. 28(11), 1655–1667 (1998)
40.
go back to reference D.W. Hobbs, Possible influence of small additions of PFA, GBFs and limestone flour upon expansion caused by the alkali-silica reaction. Mag. Concr. Res. 35(122), 55–58 (1983) D.W. Hobbs, Possible influence of small additions of PFA, GBFs and limestone flour upon expansion caused by the alkali-silica reaction. Mag. Concr. Res. 35(122), 55–58 (1983)
41.
go back to reference M.A. Halliwell, N.J. Crammond, A.P. Barker, The thaumasite form of sulfate attack in limestone-filled cement mortars (BRE Laboratory Report - BR307, Construction Research Communications Ltd (CRC), UK, 1996) M.A. Halliwell, N.J. Crammond, A.P. Barker, The thaumasite form of sulfate attack in limestone-filled cement mortars (BRE Laboratory Report - BR307, Construction Research Communications Ltd (CRC), UK, 1996)
42.
go back to reference R.D. Hooton, in Effects of Carbonate Additions on Heat of Hydration and Sulfate Resistance of Portland Cement, ed. by P. Klieger, R.D. Hooton. Carbonate Additions to Cement, ASTM STP 1064 (American Society for Testing and Materials, Philadelphia, 1990), pp. 73–81 R.D. Hooton, in Effects of Carbonate Additions on Heat of Hydration and Sulfate Resistance of Portland Cement, ed. by P. Klieger, R.D. Hooton. Carbonate Additions to Cement, ASTM STP 1064 (American Society for Testing and Materials, Philadelphia, 1990), pp. 73–81
43.
go back to reference D. Stark, Performance of concrete in sulfate environments. PCA R&D Bull. RD129, 23 p (2002) D. Stark, Performance of concrete in sulfate environments. PCA R&D Bull. RD129, 23 p (2002)
44.
go back to reference P.C. Taylor, Sulfate resistance tests on type V cements containing limestone. PCA R&D Serial No. 2182a, 8 p (1998) P.C. Taylor, Sulfate resistance tests on type V cements containing limestone. PCA R&D Serial No. 2182a, 8 p (1998)
45.
go back to reference A.P. Barker, D.W. Hobbs, Performance of Portland limestone cements in mortar prisms immersed in sulfate solutions at 5°C. Cement Concr. Compos. 21, 129–137 (1999)CrossRef A.P. Barker, D.W. Hobbs, Performance of Portland limestone cements in mortar prisms immersed in sulfate solutions at 5°C. Cement Concr. Compos. 21, 129–137 (1999)CrossRef
46.
go back to reference S.A. Hartshorn, J.H. Sharp, R.N. Swamy, Engineering properties and structural implications of Portland limestone cement mortar exposed to magnesium sulfate attack. Adv. Cement Res. 13, 31–46 (2001)CrossRef S.A. Hartshorn, J.H. Sharp, R.N. Swamy, Engineering properties and structural implications of Portland limestone cement mortar exposed to magnesium sulfate attack. Adv. Cement Res. 13, 31–46 (2001)CrossRef
47.
go back to reference I. Holton, Final report on 3-year investigation to establish sulfate resistance of Portland limestone cement concretes. BRE Report 209–164 for the British Cement Association (2003) I. Holton, Final report on 3-year investigation to establish sulfate resistance of Portland limestone cement concretes. BRE Report 209–164 for the British Cement Association (2003)
48.
go back to reference I.R. Holton, N.J. Crammond, W.F. Price, Comparative performance of portland limestone cement concretes and portland cement concretes in cold calcium sulfate solutions. (personal communication of unpublished draft paper) (2007) I.R. Holton, N.J. Crammond, W.F. Price, Comparative performance of portland limestone cement concretes and portland cement concretes in cold calcium sulfate solutions. (personal communication of unpublished draft paper) (2007)
49.
go back to reference I. Juel, D. Herfort, R. Gollop, J. Konnerup-Madsen, H.J. Jakobsen, J. Skibsted, A thermodynamic model for predicting the stability of thaumasite. Cement Concr. Compos. 25(8), 867–872 (2003) I. Juel, D. Herfort, R. Gollop, J. Konnerup-Madsen, H.J. Jakobsen, J. Skibsted, A thermodynamic model for predicting the stability of thaumasite. Cement Concr. Compos. 25(8), 867–872 (2003)
50.
go back to reference R.D. Hooton, M.D.A. Thomas, The Use of Limestone in Portland Cements: Effect on Thaumasite Form of Sulfate Attack. PCA R&D Serial No. 2658, (Portland Cement Association, Skokie, 2002) R.D. Hooton, M.D.A. Thomas, The Use of Limestone in Portland Cements: Effect on Thaumasite Form of Sulfate Attack. PCA R&D Serial No. 2658, (Portland Cement Association, Skokie, 2002)
Metadata
Title
Limestone
Author
Ali Akbar Ramezanianpour
Copyright Year
2014
Publisher
Springer Berlin Heidelberg
DOI
https://doi.org/10.1007/978-3-642-36721-2_7