| # | Title | Journal | Year | Citations |
|---|
| 1 | Analysis of crack formation and crack growth in concrete by means of fracture mechanics and finite elements | Cement and Concrete Research | 1976 | 5,250 |
| 2 | Supplementary cementitious materials | Cement and Concrete Research | 2011 | 1,978 |
| 3 | Alkali-activated fly ashes | Cement and Concrete Research | 1999 | 1,765 |
| 4 | Composition of reactive powder concretes | Cement and Concrete Research | 1995 | 1,670 |
| 5 | Industrially interesting approaches to “low-CO2” cements | Cement and Concrete Research | 2004 | 1,452 |
| 6 | A numerical approach to the complete stress-strain curve of concrete | Cement and Concrete Research | 1973 | 1,447 |
| 7 | Mechanisms of cement hydration | Cement and Concrete Research | 2011 | 1,446 |
| 8 | The role of inorganic polymer technology in the development of ‘green concrete’ | Cement and Concrete Research | 2007 | 1,408 |
| 9 | Eco-efficient cements: Potential economically viable solutions for a low-CO2 cement-based materials industry | Cement and Concrete Research | 2018 | 1,390 |
| 10 | Advances in alternative cementitious binders | Cement and Concrete Research | 2011 | 1,232 |
| 11 | Influence of amount of recycled coarse aggregates and production process on properties of recycled aggregate concrete | Cement and Concrete Research | 2007 | 1,223 |
| 12 | New cements for the 21st century: The pursuit of an alternative to Portland cement | Cement and Concrete Research | 2011 | 1,106 |
| 13 | Influence of limestone on the hydration of Portland cements | Cement and Concrete Research | 2008 | 1,100 |
| 14 | Sustainable cement production—present and future | Cement and Concrete Research | 2011 | 1,091 |
| 15 | Alkali-activated materials | Cement and Concrete Research | 2018 | 1,030 |
| 16 | Critical chloride content in reinforced concrete — A review | Cement and Concrete Research | 2009 | 971 |
| 17 | Advances in understanding alkali-activated materials | Cement and Concrete Research | 2015 | 954 |
| 18 | Mercury porosimetry | Cement and Concrete Research | 2000 | 937 |
| 19 | Modeling of strength of high-performance concrete using artificial neural networks | Cement and Concrete Research | 1998 | 915 |
| 20 | The coexistence of geopolymeric gel and calcium silicate hydrate at the early stage of alkaline activation | Cement and Concrete Research | 2005 | 914 |
| 21 | Hydration mechanisms of ternary Portland cements containing limestone powder and fly ash | Cement and Concrete Research | 2011 | 897 |
| 22 | The effect of two types of C-S-H on the elasticity of cement-based materials: Results from nanoindentation and micromechanical modeling | Cement and Concrete Research | 2004 | 885 |
| 23 | Crystallization in pores | Cement and Concrete Research | 1999 | 869 |
| 24 | 3D printing using concrete extrusion: A roadmap for research | Cement and Concrete Research | 2018 | 860 |
| 25 | The calcium silicate hydrates | Cement and Concrete Research | 2008 | 847 |
| 26 | Mechanical properties of recycled aggregate concrete under uniaxial loading | Cement and Concrete Research | 2005 | 837 |
| 27 | Compatibility studies between N-A-S-H and C-A-S-H gels. Study in the ternary diagram Na2O–CaO–Al2O3–SiO2–H2O | Cement and Concrete Research | 2011 | 837 |
| 28 | Tobermorite/jennite- and tobermorite/calcium hydroxide-based models for the structure of C-S-H: applicability to hardened pastes of tricalcium silicate, β-dicalcium silicate, Portland cement, and blends of Portland cement with blast-furnace slag, metakaolin, or silica fume | Cement and Concrete Research | 2004 | 827 |
| 29 | Cement substitution by a combination of metakaolin and limestone | Cement and Concrete Research | 2012 | 820 |
| 30 | One-part alkali-activated materials: A review | Cement and Concrete Research | 2018 | 813 |
| 31 | The nature of C-S-H in hardened cements | Cement and Concrete Research | 1999 | 802 |
| 32 | Sustainable development and climate change initiatives | Cement and Concrete Research | 2008 | 802 |
| 33 | Resistance of geopolymer materials to acid attack | Cement and Concrete Research | 2005 | 792 |
| 34 | Composition and microstructure of alkali activated fly ash binder: Effect of the activator | Cement and Concrete Research | 2005 | 788 |
| 35 | Highly dispersed carbon nanotube reinforced cement based materials | Cement and Concrete Research | 2010 | 785 |
| 36 | Advances in understanding hydration of Portland cement | Cement and Concrete Research | 2015 | 762 |
| 37 | Water-entrained cement-based materials | Cement and Concrete Research | 2001 | 760 |
| 38 | Thermodynamic modelling of the effect of temperature on the hydration and porosity of Portland cement | Cement and Concrete Research | 2008 | 759 |
| 39 | Refinements to colloid model of C-S-H in cement: CM-II | Cement and Concrete Research | 2008 | 753 |
| 40 | A review: The comparison between alkali-activated slag (Si + Ca) and metakaolin (Si + Al) cements | Cement and Concrete Research | 2010 | 752 |
| 41 | Hydration products of alkali activated slag cement | Cement and Concrete Research | 1995 | 750 |
| 42 | Use of bacteria to repair cracks in concrete | Cement and Concrete Research | 2010 | 746 |
| 43 | A model for the microstructure of calcium silicate hydrate in cement paste | Cement and Concrete Research | 2000 | 734 |
| 44 | Influence of activator type on hydration kinetics, hydrate assemblage and microstructural development of alkali activated blast-furnace slags | Cement and Concrete Research | 2011 | 720 |
| 45 | Geopolymeric materials prepared using Class F fly ash and elevated temperature curing | Cement and Concrete Research | 2005 | 714 |
| 46 | Alkali-activated fly ash/slag cements | Cement and Concrete Research | 2000 | 705 |
| 47 | The use of thermal analysis in assessing the effect of temperature on a cement paste | Cement and Concrete Research | 2005 | 700 |
| 48 | Calcined clay limestone cements (LC3) | Cement and Concrete Research | 2018 | 700 |
| 49 | The role of calcium carbonate in cement hydration | Cement and Concrete Research | 2007 | 695 |
| 50 | Recent advances in understanding the role of supplementary cementitious materials in concrete | Cement and Concrete Research | 2015 | 690 |
