| Effect of waste marble dust content as filler on properties of self-compacting concrete IB Topcu, T Bilir, T Uygunoğlu Construction and building Materials 23 (5), 1947-1953, 2009 | 452 | 2009 |
| Durability of concrete incorporating non-ground blast furnace slag and bottom ash as fine aggregate İ Yüksel, T Bilir, Ö Özkan Building and environment 42 (7), 2651-2659, 2007 | 267 | 2007 |
| Experimental investigation of some fresh and hardened properties of rubberized self-compacting concrete İB Topçu, T Bilir Materials & Design 30 (8), 3056-3065, 2009 | 224 | 2009 |
| Steel slag and its applications in cement and concrete technology: A review O Gencel, O Karadag, OH Oren, T Bilir Construction and Building Materials 283, 122783, 2021 | 211 | 2021 |
| Alkali–silica reactions of mortars produced by using waste glass as fine aggregate and admixtures such as fly ash and Li2CO3 IB Topçu, AR Boğa, T Bilir Waste Management 28 (5), 878-884, 2008 | 144 | 2008 |
| Use of steel fiber reinforced mortar for seismic strengthening T Sevil, M Baran, T Bilir, E Canbay Construction and Building Materials 25 (2), 892-899, 2011 | 125 | 2011 |
| Properties of mortars with fly ash as fine aggregate T Bilir, O Gencel, IB Topcu Construction and Building Materials 93, 782-789, 2015 | 120 | 2015 |
| Use of granulated blast-furnace slag in concrete as fine aggregate I Yüksel, Ö Özkan, T Bilir ACI Materials Journal 103 (3), 203, 2006 | 105 | 2006 |
| A novel study for the estimation of crack propagation in concrete using machine learning algorithms G Bayar, T Bilir Construction and building materials 215, 670-685, 2019 | 80 | 2019 |
| Durability properties of concrete produced by marble waste as aggregate or mineral additives GC Ulubeyli, T Bilir, R Artir Procedia engineering 161, 543-548, 2016 | 77 | 2016 |
| Effects of non-ground slag and bottom ash as fine aggregate on concrete permeability properties T Bilir Construction and Building Materials 26 (1), 730-734, 2012 | 71 | 2012 |
| Effect of bottom ash as fine aggregate on shrinkage cracking of mortars IB Topçu, T Bilir ACI Materials Journal 107 (1), 48, 2010 | 66 | 2010 |
| Usage of industrial by-products to produce plain concrete elements İ Yüksel, T Bilir Construction and Building Materials 21 (3), 686-694, 2007 | 65 | 2007 |
| Use of recycled coal bottom ash in reinforced concrete beams as replacement for aggregate M Karalar, T Bilir, M Çavuşlu, YO Özkiliç, MM Sabri Sabri Frontiers in Materials 9, 1064604, 2022 | 62 | 2022 |
| Experimental investigation of drying shrinkage cracking of composite mortars incorporating crushed tile fine aggregate İB Topçu, T Bilir Materials & Design 31 (9), 4088-4097, 2010 | 52 | 2010 |
| Estimation of the modulus of elasticity of slag concrete by using composite material models IB Topçu, T Bilir, AR Boğa Construction and Building Materials 24 (5), 741-748, 2010 | 49 | 2010 |
| A detailed review on foam concrete composites: Ingredients, properties, and microstructure O Gencel, T Bilir, Z Bademler, T Ozbakkaloglu Applied Sciences 12 (11), 5752, 2022 | 36 | 2022 |
| Concretes with synthetic aggregates for sustainability I Tekin, MY Durgun, O Gencel, T Bilir, W Brostow, HEH Lobland Construction and Building Materials 133, 425-432, 2017 | 34 | 2017 |
| Analysis of rubberized concrete as a Three-phase composite material IB Topcu, T Bilir Journal of Composite materials 43 (11), 1251-1263, 2009 | 34 | 2009 |
| Effects of bottom ash and granulated blast furnace slag as fine aggregate on abrasion resistance of concrete T Bilir, I Yüksel, IB Topcu, O Gencel Science and Engineering of Composite Materials 24 (2), 261-269, 2017 | 30 | 2017 |
Prof. Dr. İlker Bekir TopçuEskişehir Osmangazi University在 ogu.edu.tr 的电子邮件经过验证
