Strength and Mass Loss Evaluation of HSC with Silica Fume
and Nano‑Silica Exposed to Elevated Temperatures

Faculty	Engineering	Year:	2021
Type of Publication:	ZU Hosted	Pages:
Authors:	Ibrahim Attia Abdelmegeed Abdelgawad Staff Zu Site Abstract In Staff Site
Journal:	Arabian Journal for Science and Engineering King Fahd University of Petroleum & Minerals 2021	Volume:

Keywords :	Strength , Mass Loss Evaluation , , with Silica
Abstract:	In this study, the strength reduction of high-strength concrete (HSC) integrating silica fume (SF) and nano-silica (NS) exposed to elevated temperatures besides its mass loss is evaluated. Cubes and cylinders were cast and tested at 28 and

Author Related Publications

Ibrahim Attia Abdelmegeed Abdelgawad, "Flexural response and load capacity of reinforced concrete beams strengthened with reinforced mortar layer", Elsevier, 2021 More
Ibrahim Attia Abdelmegeed Abdelgawad, "Experimental and theoretical study on the compressive strength of the high strength concrete incorporating steel fiber and metakaolin", Elsevier, 2021 More
Ibrahim Attia Abdelmegeed Abdelgawad, "Experimental study of the influence of adhesive properties and bond length on the bond behaviour of NSM FRP bars in concrete", Taylor and Francis, 2016 More
Ibrahim Attia Abdelmegeed Abdelgawad, "Experimental and analytical investigation into the flexural performance of RC beams with partially and fully bonded NSM FRP bars/strips", Composite Structures, 2015 More
Ibrahim Attia Abdelmegeed Abdelgawad, "Flexural behavior of RC beams strengthened by NSM GFRP Bars having different end conditions", Elsevier, 2016 More

Ahmed Mohamed Hassan Ali Youssief, "Densification behavior and mechanical properties of niobium-oxide-doped alumina ceramics", Goller Verlag, 2013 More
Ahmed Mohamed Hassan Ali Youssief, "Influence of Ta2o5 DOPING ON THE MICROSTRUCTURE, physical and mechanical properties of 2-alumina ceramics", Goller Verlag, 2013 More
Amro Shehata Mohamed Shehata Fayed, "Morphological, mechanical, and thermal characterization of electrospun three‐dimensional graphite nanoplatelets/polystyrene ultra‐fine fibril composite fabrics", wileyonlinelibrary.com/journal/pc, 2021 More