Table 2.
Most cited publications.
| Title | Authors | Year | Journal | Citations | Reference |
|---|---|---|---|---|---|
| Cement substitution by a combination of metakaolin and limestone | M. Antoni et al. | 2012 | Cement and Concrete Research | 673 | [31] |
| Calcined clay limestone cements (LC3) | K. Scrivener et al. | 2018 | Cement and Concrete Research | 443 | [14] |
| Development of a new rapid, relevant and reliable (R3) test method to evaluate the pozzolanic reactivity of calcined kaolinitic clays | F. Avet et al. | 2016 | Cement and Concrete Research | 247 | [32] |
| Investigation of the calcined kaolinite content on the hydration of Limestone Calcined Clay Cement (LC3) | F. Avet and K. Scrivener | 2018 | Cement and Concrete Research | 235 | [34] |
| Options for the future of cement | K. Scrivener | 2014 | Indian Concrete Journal | 232 | [33] |
| Hydration and strength development in ternary portland cement blends containing limestone and fly ash or metakaolin | K. Vance et al. | 2013 | Cement and Concrete Composites | 202 | [35] |
| Mechanical properties and durability performance of concretes with Limestone Calcined Clay Cement (LC3) | Y. Dhandapani et al. | 2018 | Cement and Concrete Research | 201 | [37] |
| Changes in microstructure characteristics of cement paste on carbonation | V. Shah et al. | 2018 | Cement and Concrete Research | 193 | [38] |
| The rheological properties of ternary binders containing Portland cement, limestone, and metakaolin or fly ash | K. Vance et al. | 2013 | Cement and Concrete Research | 172 | [36] |
| Role of calcium on chloride binding in hydrated Portland cement-metakaolin-limestone blends | Z. Shi et al. | 2017 | Cement and Concrete Research | 163 | [39] |