Effect of sustained loading and environmental conditions on the creep behavior of an epoxy adhesive for concrete structures strengthened with CFRP laminates

Faculty Engineering Year: 2017
Type of Publication: ZU Hosted Pages: 88-96
Authors:
Journal: Composites Part B: Engineering elsevier Volume:
Keywords : Effect , sustained loading , environmental conditions , , creep    
Abstract:
In this paper, the creep behavior of a structural epoxy adhesive used for strengthening Reinforced Concrete (RC) structures with Carbon Fiber Reinforced Polymer (CFRP) laminates is studied through an experimental program. Long-term tensile
   
     
 
       

Author Related Publications

  • Mohammed Reda Ali Elewa, "Flexural response and load capacity of reinforced concrete beams strengthened with reinforced mortar layer", Elsevier, 2021 More
  • Mohammed Reda Ali Elewa, "Experimental and theoretical study on the compressive strength of the high strength concrete incorporating steel fiber and metakaolin", Elsevier, 2021 More
  • Mohammed Reda Ali Elewa, "Behavior of ECC columns confined using steel wire mesh under axial loading", Elsevier, 2021 More
  • Mohammed Reda Ali Elewa, "Effect of Cement Alternative on the Mechanical Properties of Self Compacting Concrete Using Variable Aggregate Types", Faculty of Engineering - Zagazig University, 2011 More
  • Mohammed Reda Ali Elewa, "Bond response of NSM CFRP strips in concrete under sustained loading and different temperature and humidity conditions", Elsevier, 2018 More

Department Related Publications

  • 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
Tweet