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Materials and Manufacturing Processes Volume 19, 2004 - Issue 5
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Original Articles

Some Engineering Properties of Limestone Concrete

Said Kenai Civil Engineering Department, University of Blida, AlgeriaCorrespondence[email protected]
,
Wolé Soboyejo Mechanical and Aerospace Engineering Department, University of Princeton, USA
&
Alfred Soboyejo Ohio State University, Columbus, USA
Pages 949-961 | Published online: 07 Feb 2007

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Aishwarya Badkul, Rakesh Paswan, S. K. Singh & J. P. Tegar. (2022) A comprehensive study on the performance of alkali activated fly ash/GGBFS geopolymer concrete pavement. Road Materials and Pavement Design 23:8, pages 1815-1835.
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Zakaria Skender, Abderrahim Bali & Ratiba Kettab. (2021) Self-compacting concrete (SCC) behaviour incorporating limestone fines as cement and sand replacement. European Journal of Environmental and Civil Engineering 25:10, pages 1852-1873.
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Sabah Ahmed Abdul-Wahab, Hilal Al-Dhamri, Ganesh Ram & Vishnu P. Chatterjee. (2021) An overview of alternative raw materials used in cement and clinker manufacturing. International Journal of Sustainable Engineering 14:4, pages 743-760.
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Teewara Suwan & Mizi Fan. (2017) Effect of manufacturing process on the mechanisms and mechanical properties of fly ash-based geopolymer in ambient curing temperature. Materials and Manufacturing Processes 32:5, pages 461-467.
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El-Hadj Meziane, Karim Ezziane, Said Kenai & Abdelkader Kadri. (2015) Mechanical, hydration, and durability modifications provided to mortar made with crushed sand and blended cements. Journal of Adhesion Science and Technology 29:18, pages 1987-2005.
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M. Özdemir & A. Uǧurlu. (2011) Evaluation of Boron Containing Clay Wastes in Cement Production. Materials and Manufacturing Processes 26:9, pages 1130-1135.
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Articles from other publishers (38)

Ibrahim Y. Hakeem, Mohamed Amin, Ibrahim Saad Agwa, Mahmoud H. Abd-Elrahman, Omar Mohamed Omar Ibrahim & Mohamed Samy. (2023) Ultra-high-performance concrete properties containing rice straw ash and nano eggshell powder. Case Studies in Construction Materials 19, pages e02291.
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Balasubramanya Manjunath, Claudiane M. Ouellet-Plamondon, B.B. Das & Chandrasekhar Bhojaraju. (2023) Potential utilization of regional cashew nutshell ash wastes as a cementitious replacement on the performance and environmental impact of eco-friendly mortar. Journal of Building Engineering 66, pages 105941.
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O. Abdel Rahman & A. Soliman. 2023. Proceedings of the Canadian Society of Civil Engineering Annual Conference 2021. Proceedings of the Canadian Society of Civil Engineering Annual Conference 2021 571 579 .
Mohammed Ibrahim, Mohammed Rizwan Ali, Jobin Jose Iype Joseph, Mohammed Shameem, Mohammed A. Al-Osta, Hammad R. Khalid & Ashraf A. Bahraq. (2022) Synthesis of waste limestone powder–based alkali-activated binder: experimental, optimization modeling, and eco-efficiency assessment. Environmental Science and Pollution Research 30:13, pages 38443-38464.
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Seyed Abbas Hosseini & Nasrollah Eftekhari. (2021) Permeability of Concrete Containing Limestone Powder in Marine Curing Conditions. Iranian Journal of Science and Technology, Transactions of Civil Engineering 46:3, pages 1853-1861.
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B N Mohapatra. (2021) Effect of Bogue Potential Phases of Clinker on the Mechanical Strength of Fly ash-Limestone Based Portland Composite Cement. Journal of Cement Based Composites 2:2, pages 1-6.
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Ömer DEMİREL & Serhat DEMİRHAN. (2021) Mikronize kalsit içeren yüksek hacimde uçucu kül katkılı çimento harçlarının mikroyapısal özelliklerinin incelenmesi. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 36:4, pages 2255-2270.
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K. Pushkarova, D. Hadaichuk, O. Honchar, L Kushnierova, К. Кaverin & D. Ionov. (2021) Features of the structure formation processes and synthesis of strength for Portland cement compositions modified with nanocarbonate additives. IOP Conference Series: Materials Science and Engineering 1164:1, pages 012062.
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Patrick R. Cunningham, Peter G. Green & Sabbie A. Miller. (2021) Utilization of post-consumer carpet calcium carbonate (PC4) from carpet recycling as a mineral resource in concrete. Resources, Conservation and Recycling 169, pages 105496.
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Yuvaraj Dhandapani, Manu Santhanam, Gopakumar Kaladharan & Sivakumar Ramanathan. (2021) Towards ternary binders involving limestone additions — A review. Cement and Concrete Research 143, pages 106396.
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A. R. Suleiman & M. L. Nehdi. (2021) Effect of autogenous crack self-healing on mechanical strength recovery of cement mortar under various environmental exposure. Scientific Reports 11:1.
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Ajay K. Mandrawalia & Arun Gaur. (2021) Investigating Mechanical Properties of Sustainable Concrete Admixing Wollastonite Micro Fibre and Granite Block Cutting Waste. Materials Science Forum 1019, pages 53-61.
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Salim Safiddine, Kamel Amokrane, Farid Debieb, Hamza Soualhi, Benchaa Benabed & El-Hadj Kadri. (2021) How quarry waste limestone filler affects the rheological behavior of cement-based materials. Applied Rheology 31:1, pages 63-75.
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Serhat DEMİRHAN. (2020) Nano Boyutlu Kalsit ve Uçucu Külün, Harçların Hidratasyonu ve Mikroyapısal Özellikleri Üzerindeki Kombine Etkileri. Afyon Kocatepe University Journal of Sciences and Engineering 20:6, pages 1051-1067.
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Zhijun Sha, Xiang Long, Jiahui Feng, Haibo Jiang & Tianlong Wang. (2020) Development of a fast-hardening retarding high-early-strength concrete with low-alkalinity sulphoaluminate cement and practical application. Advances in Bridge Engineering 1:1.
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Arunabh Pandey & Brind Kumar. (2020) A comprehensive investigation on application of microsilica and rice straw ash in rigid pavement. Construction and Building Materials 252, pages 119053.
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Cheng Ju, Yushi Liu, Zhenyun Yu & Yingzi Yang. (2019) Cement-Lime-Fly Ash Bound Macadam Pavement Base Material with Enhanced Early-Age Strength and Suppressed Drying Shrinkage via Incorporation of Slag and Gypsum. Advances in Civil Engineering 2019, pages 1-10.
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Mingli Cao, Xing Ming, Kaiyu He, Li Li & Shirley Shen. (2019) Effect of Macro-, Micro- and Nano-Calcium Carbonate on Properties of Cementitious Composites—A Review. Materials 12:5, pages 781.
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Jian Ma, Zhuqing Yu, Chenxin Ni, Hu Shi & Xiaodong Shen. (2019) Effects of limestone powder on the hydration and microstructure development of calcium sulphoaluminate cement under long-term curing. Construction and Building Materials 199, pages 688-695.
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Fatma Shaker, Ahmed Rashad & Mohamed Allam. (2018) Properties of concrete incorporating locally produced Portland limestone cement. Ain Shams Engineering Journal 9:4, pages 2301-2309.
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Mohammed Si-Ahmed, Said Kenai & Elhem Ghorbel. (2018) Performance of cement mortar with waste ground clay brick. MRS Advances 3:34-35, pages 2041-2050.
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Kasım Mermerdaş & Zeynep Alğın. (2018) SOFT-COMPUTING MODEL FOR COMPRESSIVE STRENGTH OF MORTARS WITH BLENDED CEMENTS. ANADOLU UNIVERSITY JOURNAL OF SCIENCE AND TECHNOLOGY A - Applied Sciences and Engineering, pages 1-1.
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Gyu Don Moon, Sungwoo Oh, Sang Hwa Jung & Young Cheol Choi. (2017) Effects of the fineness of limestone powder and cement on the hydration and strength development of PLC concrete. Construction and Building Materials 135, pages 129-136.
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Aref Al-Swaidani, Andraos Soud & Amina Hammami. (2017) Improvement of the Early-Age Compressive Strength, Water Permeability, and Sulfuric Acid Resistance of Scoria-Based Mortars/Concrete Using Limestone Filler. Advances in Materials Science and Engineering 2017, pages 1-17.
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M. Aqel & D.K. Panesar. (2016) Hydration kinetics and compressive strength of steam-cured cement pastes and mortars containing limestone filler. Construction and Building Materials 113, pages 359-368.
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Belkacem Menadi, Said Kenai & Jamal M Khatib. (2014) Fracture behaviour of concrete containing limestone fines. Proceedings of the Institution of Civil Engineers - Construction Materials 167:3, pages 162-170.
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Said Kenai, Belkacem Menadi & Jamal M Khatib. (2014) Sustainable construction and low-carbon dioxide concrete: Algeria case. Proceedings of the Institution of Civil Engineers - Engineering Sustainability 167:2, pages 45-52.
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Federica Lollini, Elena Redaelli & Luca Bertolini. (2014) Effects of portland cement replacement with limestone on the properties of hardened concrete. Cement and Concrete Composites 46, pages 32-40.
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Céline Perlot, Patrick Rougeau & Sylvain Dehaudt. (2013) Slurry of metakaolin combined with limestone addition for self-compacted concrete. Application for precast industry. Cement and Concrete Composites 44, pages 50-57.
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Aditya Kumar, Tandre Oey, Seohyun Kim, Davis Thomas, Sondos Badran, Jialin Li, Fabio Fernandes, Narayanan Neithalath & Gaurav Sant. (2013) Simple methods to estimate the influence of limestone fillers on reaction and property evolution in cementitious materials. Cement and Concrete Composites 42, pages 20-29.
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Hassan Al-Nageim, Monower Sadique, William Atherton, Linda Seton & Nicola Dempster. (2013) Strength development of optimised cementitious materials containing fly ashes and silica fume. Advances in Cement Research 25:2, pages 90-97.
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E. Güneyisi, M. Gesoğlu & Z. Algin. 2013. Eco-Efficient Concrete. Eco-Efficient Concrete 198 217 .
Hasbi Yaprak, Abdülkadir Karacı & İlhami Demir. (2011) Prediction of the effect of varying cure conditions and w/c ratio on the compressive strength of concrete using artificial neural networks. Neural Computing and Applications 22:1, pages 133-141.
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M.S. Morsy, S.H. Alsayed & Y.A. Salloum. (2012) Development of eco-friendly binder using metakaolin-fly ash–lime-anhydrous gypsum. Construction and Building Materials 35, pages 772-777.
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Erhan Güneyisi & Mehmet Gesoğlu. (2011) Properties of self-compacting portland pozzolana and limestone blended cement concretes containing different replacement levels of slag. Materials and Structures 44:8, pages 1399-1410.
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G. D. Ransinchung R. N.Brind Kumar. (2010) Investigations on Pastes and Mortars of Ordinary Portland Cement Admixed with Wollastonite and Microsilica. Journal of Materials in Civil Engineering 22:4, pages 305-313.
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B. Menadi, S. Kenai, J. Khatib & A. Aït-Mokhtar. (2009) Strength and durability of concrete incorporating crushed limestone sand. Construction and Building Materials 23:2, pages 625-633.
Crossref
M. Ghrici, S. Kenai & M. Said-Mansour. (2007) Mechanical properties and durability of mortar and concrete containing natural pozzolana and limestone blended cements. Cement and Concrete Composites 29:7, pages 542-549.
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