Effect of elevated temperature on bond between steel reinforcement and fiber reinforced concrete RH Haddad, RJ Al-Saleh, NM Al-Akhras Fire Safety Journal 43 (5), 334-343, 2008 | 214 | 2008 |
Mechanical properties and bond characteristics of different fiber reinforced polymer rebars at elevated temperatures RJA Hamad, MAM Johari, RH Haddad Construction and building materials 142, 521-535, 2017 | 197 | 2017 |
Post-fire behavior of bond between high strength pozzolanic concrete and reinforcing steel RH Haddad, LG Shannis Construction and Building Materials 18 (6), 425-435, 2004 | 164 | 2004 |
Potential use of phosphogypsum in concrete MM Smadi, RH Haddad, AM Akour Cement and concrete research 29 (9), 1419-1425, 1999 | 153 | 1999 |
Production of geopolymer concrete using natural pozzolan: A parametric study RH Haddad, O Alshbuol Construction and Building Materials 114, 699-707, 2016 | 105 | 2016 |
The use of oil shale ash in Portland cement concrete MM Smadi, RH Haddad Cement and concrete composites 25 (1), 43-50, 2003 | 103 | 2003 |
Characterization of portland cement concrete using electromagnetic waves over the microwave frequencies RH Haddad, IL Al-Qadi Cement and concrete research 28 (10), 1379-1391, 1998 | 96 | 1998 |
Bond-slip behavior between carbon fiber reinforced polymer sheets and heat-damaged concrete RH Haddad, R Al-Rousan, A Almasry Composites Part B: Engineering 45 (1), 1049-1060, 2013 | 88 | 2013 |
Repair of heat-damaged reinforced concrete slabs using fibrous composite materials RH Haddad, N Al-Mekhlafy, AM Ashteyat Construction and Building Materials 25 (3), 1213-1221, 2011 | 85 | 2011 |
Role of fibers in controlling unrestrained expansion and arresting cracking in Portland cement concrete undergoing alkali–silica reaction RH Haddad, MM Smadi Cement and concrete research 34 (1), 103-108, 2004 | 83 | 2004 |
Free vibration of composite plates using the finite difference method KS Numayr, RH Haddad, MA Haddad Thin-walled structures 42 (3), 399-414, 2004 | 69 | 2004 |
Repair of shear-deficient and sulfate-damaged reinforced concrete beams using FRP composites RH Haddad, RZ Al-Rousan, BK Al-Sedyiri Engineering structures 56, 228-238, 2013 | 65 | 2013 |
Predicting fiber‐reinforced polymer–concrete bond strength using artificial neural networks: A comparative analysis study R Haddad, M Haddad Structural Concrete 22 (1), 38-49, 2021 | 64 | 2021 |
Effect of sulfates on bond behavior between carbon fiber reinforced polymer sheets and concrete R Al-Rousan, R Haddad, K Al-Sa’di Materials & Design 43, 237-248, 2013 | 61 | 2013 |
Repair of heat-damaged RC shallow beams using advanced composites RH Haddad, MJ Shannag, A Moh’d Materials and Structures 41, 287-299, 2008 | 55 | 2008 |
NLFEA sulfate-damage reinforced concrete beams strengthened with FRP composites R Al-Rousan, R Haddad Composite Structures 96, 433-445, 2013 | 51 | 2013 |
Recovering flexural performance of thermally damaged concrete beams using NSM CFRP strips RH Haddad, OA Almomani Construction and Building Materials 154, 632-643, 2017 | 50 | 2017 |
Role of synthetic fibers in delaying steel corrosion cracks and improving bond with concrete RH Haddad, AM Ashteyate Canadian Journal of Civil Engineering 28 (5), 787-793, 2001 | 48 | 2001 |
Effectiveness of advanced composites in repairing heat-damaged RC columns H Al-Nimry, R Haddad, S Afram, M Abdel-Halim Materials and structures 46, 1843-1860, 2013 | 47 | 2013 |
Effect of alkali-silica reaction and freezing and thawing action on concrete–steel bond RH Haddad, KS Numayr Construction and Building Materials 21 (2), 428-435, 2007 | 41 | 2007 |