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Advances in Applied Ceramics
Structural, Functional and Bioceramics
Volume 106, 2007 - Issue 6: Advances in cemetitious materials
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Articles

Nature of C–S–H in 20 year old neat ordinary Portland cement and 10% Portland cement–90% ground granulated blast furnace slag pastes

R. TaylorSchool of Civil Engineering, University of Leeds, LeedsLS2 9JT, UK
,
I. G. RichardsonSchool of Civil Engineering, University of Leeds, LeedsLS2 9JT, UKCorrespondence[email protected]
&
R. M. D. BrydsonSchool of Civil Engineering, University of Leeds, LeedsLS2 9JT, UK
Pages 294-301 | Published online: 18 Jul 2013

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Leon Black, Phil Purnell & Joanne Hill. (2010) Current themes in cement research. Advances in Applied Ceramics 109:5, pages 253-259.
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Xingyi Wang, Xiaoyuan Wang, Jinzhuang Lv, Jingchao Yang, Bin He, Pengju Han & Xiaohong Bai. (2023) Mechanical properties and hydration behaviour of circulating fluidised bed fly ash- ground granulated blast furnace slag-lime ecofriendly cementitious material. Construction and Building Materials 409, pages 133964.
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Qinglong Qin, Qingshan Meng, Manguang Gan, Zihan Ma & Yong Zheng. (2023) Deterioration mechanism of coral reef sand concrete under scouring and abrasion environment and its performance modulation. Construction and Building Materials 408, pages 133607.
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Xiaohong Zhu & Ian G. Richardson. (2023) Morphology-structural change of C-A-S-H gel in blended cements. Cement and Concrete Research 168, pages 107156.
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Xin-Rui Xiong, Jun-Yan Wang, An-Ming She & Jian-Mao Lin. (2023) Characterization of Pore Size Distribution and Water Transport of UHPC Using Low-Field NMR and MIP. Materials 16:7, pages 2781.
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Michael Schwaighofer, Markus Königsberger & Bernhard L. A. Pichler. (2023) Effect of Hydrate Failure in ITZs on the Initiation of Prepeak Nonlinearities of Concrete under Multiaxial Compression. Journal of Engineering Mechanics 149:1.
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Eva Binder, Markus Königsberger, Rodrigo Díaz Flores, Herbert A. Mang, Christian Hellmich & Bernhard L.A. Pichler. (2023) Thermally activated viscoelasticity of cement paste: Minute-long creep tests and micromechanical link to molecular properties. Cement and Concrete Research 163, pages 107014.
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Sarah A. Kearney, Elena Tajuelo Rodriguez, José David Arregui-Mena, Sebastian M. Lawson & John L. Provis. (2022) Simulation of radiation damage via alpha decay in BFS:PC grouts using 4He2+ ion acceleration. Cement and Concrete Research 159, pages 106895.
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Yue Zhou, Zhongping Wang, Zheyu Zhu, Yuting Chen, Long Zhou, Linglin Xu & Kai Wu. (2022) Time-varying structure evolution and mechanism analysis of alite particles hydrated in restricted space. Construction and Building Materials 341, pages 127829.
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Ying Chen, Peng Liu, Fei Sha, Jian Yin, Sasa He, Qianghui Li, Zhiwu Yu & Hailong Chen. (2022) Study on the mechanical and rheological properties of ultra-high performance concrete. Journal of Materials Research and Technology 17, pages 111-124.
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Julia Herterich, Ian Richardson, Fabrizio Moro, Maurizio Marchi & Leon Black. (2022) Microstructure and phase assemblage of low-clinker cements during the early stages of carbonation. Cement and Concrete Research 152, pages 106643.
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Raju Sharma, Jeong Gook Jang & Prem Pal Bansal. (2022) A comprehensive review on effects of mineral admixtures and fibers on engineering properties of ultra-high-performance concrete. Journal of Building Engineering 45, pages 103314.
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Yong Shi & Z. M. Shi. (2021) Surface Treatment of Cementitious Composites by Ultrasound and Its Effect on Durability Performance. Journal of Materials in Civil Engineering 33:3.
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Hongyang Deng & Zhen He. (2021) Interactions of sodium chloride solution and calcium silicate hydrate with different calcium to silicon ratios: A molecular dynamics study. Construction and Building Materials 268, pages 121067.
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Wei Liu, Yongqiang Li, Shifa Lin, Luping Tang, Zhijun Dong, Feng Xing, Biqin Dong & Shuxian Hong. (2020) Changes in chemical phases and microscopic characteristics of fly ash blended cement pastes in different CO2 concentrations. Construction and Building Materials 257, pages 119598.
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Yi Jiang, Tung-Chai Ling, Kim Hung Mo & Caijun Shi. (2019) A critical review of waste glass powder – Multiple roles of utilization in cement-based materials and construction products. Journal of Environmental Management 242, pages 440-449.
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Zhen He, Xiaorun Chen & Xinhua Cai. (2019) Influence and mechanism of micro/nano-mineral admixtures on the abrasion resistance of concrete. Construction and Building Materials 197, pages 91-98.
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James Beaudoin & Ivan Odler. 2019. Lea's Chemistry of Cement and Concrete. Lea's Chemistry of Cement and Concrete 157 250 .
R. M. R. O. MENEZES, R. M. DA SILVA, E. P. FIGUEIREDO, A. C. DA SILVA BEZERRA, M. T. P. AGUILAR & P. R. CETLIN. (2018) Hydraulic binder obtained from recycled cement and sand powder. Revista IBRACON de Estruturas e Materiais 11:6, pages 1178-1185.
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Thi Hai Yen Nguyen, Koichi Tsuchiya & Daiki Atarashi. (2018) Microstructure and composition of fly ash and ground granulated blast furnace slag cement pastes in 42-month cured samples. Construction and Building Materials 191, pages 114-124.
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Janaína dos Santos Vazzoler, Geilma Lima Vieira, Claudia Rodrigues Teles, Maxwell Klein Degen & Roberta Arlêu Teixeira. (2018) Investigation of the potential use of waste from ornamental stone processing after heat treatment for the production of cement-based paste. Construction and Building Materials 177, pages 314-321.
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Zhidong Zhang, George W. Scherer & Alexandre Bauer. (2018) Morphology of cementitious material during early hydration. Cement and Concrete Research 107, pages 85-100.
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I.G. Richardson & S. Li. (2018) Composition and structure of an 18-year-old 5M KOH-activated ground granulated blast-furnace slag paste. Construction and Building Materials 168, pages 404-411.
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V. Kanchanason & J. Plank. (2017) Role of pH on the structure, composition and morphology of C-S-H–PCE nanocomposites and their effect on early strength development of Portland cement. Cement and Concrete Research 102, pages 90-98.
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Ingrid M. Padilla Espinosa, Wayne Hodo, John S. Rivas Murillo, A. M. Rajendran & Ram V. Mohan. (2017) Constitutive Stiffness Characteristics of Cement Paste as a Multiphase Composite System—A Molecular Dynamics-Based Model. Journal of Engineering Materials and Technology 139:4.
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Xuebing Wang & Zhihua Pan. (2017) Chemical changes and reaction mechanism of hardened cement paste–(NH4)2SO4–H2O system. Construction and Building Materials 152, pages 434-443.
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I.G. Richardson, A.V. Girão, R. Taylor & S. Jia. (2016) Hydration of water- and alkali-activated white Portland cement pastes and blends with low-calcium pulverized fuel ash. Cement and Concrete Research 83, pages 1-18.
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P. Pourbeik, J. J. Beaudoin, R. Alizadeh & L. Raki. (2014) Dynamic mechanical thermo-analysis of Portland cement paste hydrated for 45?years. Materials and Structures 49:1-2, pages 329-340.
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John S Rivas Murillo, Ahmed Mohamed, Wayne Hodo, Ram V Mohan, A Rajendran & R Valisetty. (2015) Computational modeling of shear deformation and failure of nanoscale hydrated calcium silicate hydrate in cement paste: Calcium silicate hydrate Jennite. International Journal of Damage Mechanics 25:1, pages 98-114.
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Qiu Li. (2015) Chemical composition and microstructure of hydration products of hardened white portland cement pastes containing admixtures. Journal of Wuhan University of Technology-Mater. Sci. Ed. 30:4, pages 758-767.
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Kasper Enemark-Rasmussen, Thuan T. Tran & Jørgen Skibsted. (2014) Fluoride ions as structural probe-ions in 19 F MAS NMR studies of cement materials and thermally activated SCMs . Advances in Cement Research 26:4, pages 233-246.
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John L. ProvisSusan A. Bernal. (2014) Geopolymers and Related Alkali-Activated Materials. Annual Review of Materials Research 44:1, pages 299-327.
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Susan A. Bernal, John L. Provis, Ana Fernández-Jiménez, Pavel V. Krivenko, Elena Kavalerova, Marta Palacios & Caijun Shi. 2014. Alkali Activated Materials. Alkali Activated Materials 59 91 .
Pouya Pourbeik, Rouhollah Alizadeh, James J. Beaudoin, Dan-Tam Nguyen & Laila Raki. (2013) Microindentation creep of 45 year old hydrated Portland cement paste. Advances in Cement Research 25:5, pages 301-306.
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Danièle Bartier, Isabelle Techer, Alexandre Dauzères, Philippe Boulvais, Marie-Madeleine Blanc-Valleron & Justo Cabrera. (2013) In situ investigations and reactive transport modelling of cement paste/argillite interactions in a saturated context and outside an excavated disturbed zone. Applied Geochemistry 31, pages 94-108.
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Bernhard Pichler, Christian Hellmich, Josef Eberhardsteiner, Jaromír Wasserbauer, Pipat Termkhajornkit, Rémi Barbarulo & Gilles Chanvillard. (2013) Effect of gel–space ratio and microstructure on strength of hydrating cementitious materials: An engineering micromechanics approach. Cement and Concrete Research 45, pages 55-68.
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Lina Zhang, Zhenyang Lin & Zongjin Li. (2012) The structure of silicate ions in C-S-H discussed from chemical composition. Advances in Cement Research 24:5, pages 263-281.
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H. A. Mang, B. Pichler, T. Bader, J. Füssl, X. Jia, A. Fritsch, J. Eberhardsteiner & Ch. Hellmich. (2012) Quantification of structural and material failure mechanisms across different length scales: from instability to brittle-ductile transitions. Acta Mechanica 223:9, pages 1937-1957.
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Karen L. Scrivener & Andr? Nonat. (2011) Hydration of cementitious materials, present and future. Cement and Concrete Research 41:7, pages 651-665.
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Bernhard Pichler & Christian Hellmich. (2011) Upscaling quasi-brittle strength of cement paste and mortar: A multi-scale engineering mechanics model. Cement and Concrete Research 41:5, pages 467-476.
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R. Taylor, I.G. Richardson & R.M.D. Brydson. (2010) Composition and microstructure of 20-year-old ordinary Portland cement?ground granulated blast-furnace slag blends containing 0 to 100% slag. Cement and Concrete Research 40:7, pages 971-983.
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I.G. Richardson. (2008) The calcium silicate hydrates. Cement and Concrete Research 38:2, pages 137-158.
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