Properties of concrete containing waste glass IB Topcu, M Canbaz Cement and concrete research 34 (2), 267-274, 2004 | 884 | 2004 |
The properties of rubberized concretes IB Topcu Cement and concrete research 25 (2), 304-310, 1995 | 874 | 1995 |
Properties of concretes produced with waste concrete aggregate IB Topcu, S Şengel Cement and concrete research 34 (8), 1307-1312, 2004 | 778 | 2004 |
Prediction of compressive strength of concrete containing fly ash using artificial neural networks and fuzzy logic IB Topcu, M Sarıdemir Computational Materials Science 41 (3), 305-311, 2008 | 623 | 2008 |
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 |
Using waste concrete as aggregate İB Topçu, NF Günçan Cement and concrete research 25 (7), 1385-1390, 1995 | 408* | 1995 |
Physical and mechanical properties of concretes produced with waste concrete IB Topcu Cement and concrete research 27 (12), 1817-1823, 1997 | 331 | 1997 |
Effect of different fibers on the mechanical properties of concrete containing fly ash IB Topcu, M Canbaz Construction and Building Materials 21 (7), 1486-1491, 2007 | 305 | 2007 |
Properties of the autoclaved aerated concrete produced from coal bottom ash H Kurama, İB Topçu, C Karakurt Journal of materials processing technology 209 (2), 767-773, 2009 | 291 | 2009 |
Prediction of mechanical properties of recycled aggregate concretes containing silica fume using artificial neural networks and fuzzy logic İB Topçu, M Sarıdemir Computational Materials Science 42 (1), 74-82, 2008 | 278 | 2008 |
Collision behaviours of rubberized concrete IB Topçu, N Avcular Cement and concrete research 27 (12), 1893-1898, 1997 | 275 | 1997 |
Effect of aggregate type on properties of hardened self-consolidating lightweight concrete (SCLC) İB Topçu, T Uygunoğlu Construction and Building Materials 24 (7), 1286-1295, 2010 | 263 | 2010 |
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 |
Utilization of natural zeolite in aerated concrete production C Karakurt, H Kurama, IB Topcu Cement and Concrete Composites 32 (1), 1-8, 2010 | 202 | 2010 |
Use of waste marble and recycled aggregates in self-compacting concrete for environmental sustainability T Uygunoğlu, İB Topçu, AG Çelik Journal of cleaner production 84, 691-700, 2014 | 199 | 2014 |
Manufacture of high heat conductivity resistant clay bricks containing perlite İB Topçu, B Işıkdağ Building and Environment 42 (10), 3540-3546, 2007 | 192 | 2007 |
The effect of fly ash content and types of aggregates on the properties of pre-fabricated concrete interlocking blocks (PCIBs) T Uygunoğlu, IB Topcu, O Gencel, W Brostow Construction and Building Materials 30, 180-187, 2012 | 190 | 2012 |
Effect of expanded perlite aggregate on the properties of lightweight concrete İB Topçu, B Işıkdağ Journal of materials processing technology 204 (1-3), 34-38, 2008 | 189 | 2008 |
Prediction of properties of waste AAC aggregate concrete using artificial neural network IB Topcu, M Sarıdemir Computational Materials Science 41 (1), 117-125, 2007 | 188 | 2007 |
Durability of rubberized mortar and concrete İB Topçu, A Demir Journal of materials in Civil Engineering 19 (2), 173-178, 2007 | 188 | 2007 |