| Green concrete composite incorporating fly ash with high strength and fracture toughness GL Golewski Journal of cleaner production 172, 218-226, 2018 | 191 | 2018 |
| The phenomenon of cracking in cement concretes and reinforced concrete structures: the mechanism of cracks formation, causes of their initiation, types and places of occurrence … GL Golewski Buildings 13 (3), 765, 2023 | 162 | 2023 |
| Measurement of fracture mechanics parameters of concrete containing fly ash thanks to use of Digital Image Correlation (DIC) method GL Golewski Measurement 135, 96-105, 2019 | 138 | 2019 |
| Evaluation of morphology and size of cracks of the Interfacial Transition Zone (ITZ) in concrete containing fly ash (FA) GL Golewski Journal of hazardous materials 357, 298-304, 2018 | 136 | 2018 |
| Evaluation of fracture processes under shear with the use of DIC technique in fly ash concrete and accurate measurement of crack path lengths with the use of a new crack tip … GL Golewski Measurement 181, 109632, 2021 | 123 | 2021 |
| Green Concrete Based on Quaternary Binders with Significant Reduced of CO2 Emissions GL Golewski Energies 14 (15), 4558, 2021 | 107 | 2021 |
| Combined effect of coal fly ash (CFA) and nanosilica (nS) on the strength parameters and microstructural properties of eco-friendly concrete GL Golewski Energies 16 (1), 452, 2022 | 102 | 2022 |
| Comparative measurements of fracture toughgness combined with visual analysis of cracks propagation using the DIC technique of concretes based on cement matrix with a highly … GL Golewski Theoretical and Applied Fracture Mechanics 121, 103553, 2022 | 102 | 2022 |
| Numerical modelling crack propagation under Mode II fracture in plain concretes containing siliceous fly-ash additive using XFEM method GL Golewski, P Golewski, T Sadowski Computational Materials Science 62, 75-78, 2012 | 100 | 2012 |
| An assessment of microcracks in the Interfacial Transition Zone of durable concrete composites with fly ash additives GL Golewski Composite Structures 200, 515-520, 2018 | 99 | 2018 |
| Improvement of fracture toughness of green concrete as a result of addition of coal fly ash. Characterization of fly ash microstructure GL Golewski Materials Characterization 134, 335-346, 2017 | 98 | 2017 |
| An extensive investigations on fracture parameters of concretes based on quaternary binders (QBC) by means of the DIC technique GL Golewski Construction and Building Materials 351, 128823, 2022 | 97 | 2022 |
| Estimation of the optimum content of fly ash in concrete composite based on the analysis of fracture toughness tests using various measuring systems GL Golewski Construction and Building Materials 213, 142-155, 2019 | 97 | 2019 |
| Validation of the favorable quantity of fly ash in concrete and analysis of crack propagation and its length–Using the crack tip tracking (CTT) method–In the fracture toughness … GL Golewski Construction and Building Materials 296, 122362, 2021 | 96 | 2021 |
| The influence of microcrack width on the mechanical parameters in concrete with the addition of fly ash: Consideration of technological and ecological benefits GL Golewski Construction and Building Materials 197, 849-861, 2019 | 95 | 2019 |
| Assessing of water absorption on concrete composites containing fly ash up to 30% in regards to structures completely immersed in water GL Golewski Case Studies in Construction Materials 19, e02337, 2023 | 93 | 2023 |
| Effect of curing time on the fracture toughness of fly ash concrete composites GL Golewski Composite Structures 185, 105-112, 2018 | 93 | 2018 |
| Studies of fracture toughness in concretes containing fly ash and silica fume in the first 28 days of curing GL Golewski, DM Gil Materials 14 (2), 319, 2021 | 92 | 2021 |
| Energy savings associated with the use of fly ash and nanoadditives in the cement composition GL Golewski Energies 13 (9), 2184, 2020 | 90 | 2020 |
| An analysis of shear fracture toughness KIIc and microstructure in concretes containing fly-ash GL Golewski, T Sadowski Construction and Building Materials 51, 207-214, 2014 | 89 | 2014 |