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faculty name

Faculty of Technology and Education

Curriculum Vitae (CV)

Cv

Ibrahim Saad Agwa

 

Personal Information:

Name

Ibrahim Saad Agwa

Date of Birth

Jan. 1th, 1985, Egypt

Current profession:

Associate Professor, Civil and Architectural Constructions Department, Faculty of Technology and Education, Suez University

Head Department of Civil and Architectural Constructions Department

Mobile

00201028242681

email

ibrahim.agwa@suezuniv.edu.eg

Scopus

http://www.scopus.com/authid/detail.url?authorId=56584556900

26 h-index

google scholar

https://scholar.google.com.eg/citations?user=Pd6zGzoAAAAJ&hl=ar

26 h-index

ResearchGate

/https://www.researchgate.net/profile/Ibrahim-Agwa

27 h-index

Team Publons

https://publons.com/researcher/4651020/ibrahim-saad-agwa/

21 h-index

Keywords

Sustainability; Eco-friendly materials ; Nanotechnology; Geopolymer concrete, Green building

Publication

 

Educational notices:

 

Academic Qualification

Ph.D. in Technology (Dep. of Civil and Architectural construction)    2016

M. Sc. in Technology (Dep. of Civil and Architectural construction)   2011

Bachelor of Technology. May 2006.

Ph.D.  thesis title

"Evaluation of Underwater Concrete Properties Using  a New Technique in Egypt"

M. Sc. thesis title

The Effect of Using Recycled Concrete Aggregate Subjected to Fire on The Properties of Concrete"

 

 

Academic Position:

 

Demonstrator

2007 to 2011

Assistant lecturer

2011 to 2015

Lecturer

2016-2021

Associate Professor

2021-Now

 

 

 International Conference

 
  1. Heniegal, A. M., Maaty, A. A. E. S., & Agwa, I. S. (2015)., Underwater concrete properties with steel slag as the coarse aggregate. International Conference on Advances in Structural and Geotechnical Engineering, ICASGE’15, Conference, 6-9 April 2015, Hurghada, Egypt.
  2. Agwa, I. S., Zeyad, A. M., Tayeh, B. A., Adesina, A., de Azevedo, A. R., Amin, M., & Hadzima-Nyarko, M. (2021). A comprehensive review on the use of sugarcane bagasse ash as a supplementary cementitious material to produce eco-friendly concretes. International Conference on Advances in Construction Materials and Structures, ICCMS-2021, Conference, 15-17 Dec 2021, India.
  3. Mohamed Amin, Nirmen Abd El-Aziz, Ibrahim Saad Agwa, and Khaled Abu el-hassan. (2022) .Properties and Microstructure of High Strength Concrete,  Incorporating Different Supplementary Cementitious Materials. International Conference on Nanotechnology for Green and Sustainable Construction , 18 - 22 Mar 2022, Sharm El-Sheikh, Egypt

 

 International Journal

 

In 2011 (1)

 
  1. Fahmy, W., Heneidy, E., Ali, E., Agwa, I. S. (2011). Mechanical properties of concrete containing recycled concrete aggregates subjected to different fire durations. Journal of Engineering Sciences, 39(5), 1005-1019.

 

In 2012 (1)

 

1-         Fahmy, W. S., Heneidy, E. A. L., Ali, E. E., Agwa, I. S. (2012). Performance of concrete containing crushed waste concrete exposed to different fire temperatures. International Journal of Civil & Structural Engineering, 3(1), 9-22.

 

In 2015 (2)

 
  1. Heniegal, A. M., Maaty, A. A. E. S., Agwa, I. S. (2015). Simulation of the behavior of pressurized underwater concrete. Alexandria Engineering Journal, 54(2).
  2. Heniegal, A. M., Maaty, A. A. E. S., Agwa, I. S. (2015). Comparison between utilization of industrial waste steel slag as aggregate and natural aggregate in underwater self-compacting concrete. Concrete Research Letters, 6(4) 166-181.

 

In 2016 (1)

 

1-         Heniegal, A. M., Maaty, A. A. E. S., Agwa, I. S. (2016). Influence of anti washout admixtures and coarse aggregate types on self-flowing underwater concrete properties. International Journal of Civil & Structural Engineering, 6(3), 245-262.

 

In 2017 (1)

 

1-         Heniegal, A. M., Omar, O. M., Agwa, I. S., Youssef, K. G. (2017). Effect of Forced casting joints on the mechanical properties of self-compacting concrete incorporating cement waste. IJEIT, 7, 1-6.

 

In 2019 (1)

 
  1. Agwa, I. S., Ibrahim, O. M. O. (2019). Fresh and hardened properties of self-compacting concrete containing cement kiln dust. challenge journal of concrete research letters .5 (1) 13–19.

 

  In 2020 (7)

 
  1. Agwa, I. S., Omar, O. M., Tayeh, B. A., Abdelsalam, B. A. (2020). Effects of using rice straw and cotton stalk ashes on the properties of lightweight self-compacting concrete. Construction and Building Materials, 235, 117541.
  2. Saad, M., Agwa, I. S., Abdelsalam Abdelsalam, B., Amin, M. (2020). Improving the brittle behavior of high strength concrete using banana and palm leaf sheath fibers. Mechanics of Advanced Materials and Structures, 1-10.
  3. Heniegal, A. M., Ramadan, M. A., Naguib, A., Agwa, I. S. (2020). Study on properties of clay brick incorporating sludge of water treatment plant and agriculture waste. Case Studies in Construction Materials, 13, e00397.
  4. Amin, M., Tayeh, B. A., Agwa, I. S. (2020). Effect of using mineral admixtures and ceramic wastes as coarse aggregates on properties of ultrahigh-performance concrete. Journal of Cleaner Production, 273, 123073.
  5. Tobbala, D. E., Abdelsalam, B. A., Agwa, I. S. (2020). Bond performance of a hybrid coating zinc-rich epoxy incorporating nano-ferrite for steel rebars subjected to high temperatures in concrete. Journal of Building Engineering, 32, 101698.
  6. Heniegal, A. M., Omar, O. M., Agwa, I. S., Youssef, K. G. (2020). Effect of horizontal joints on structural behavior of sustainable self-compacting reinforced concrete beams. Advances in Concrete Construction,  Volume 10, Number 5, November 2020, pages 455-462.
  7. Amin, M., Tayeh, B. A., Agwa, I. S. (2020). Investigating the mechanical and microstructure properties of fibre-reinforced lightweight concrete under elevated temperatures. Case Studies in Construction Materials, Volume 13, December 2020, e00459.

 

  In 2021 (5)

 
  1. Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2021). Effects of nano cotton stalk and palm leaf ashes on ultrahigh-performance concrete properties incorporating recycled concrete aggregates. Construction and Building Materials, 302, 124196.
  2. Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2021). Engineering properties of self-cured normal and high strength concrete produced using polyethylene glycol and porous ceramic waste as coarse aggregate. Construction and Building Materials, 299, 124243.
  3. Tayeh, B. A., Zeyad, A. M., Agwa, I. S., & Amin, M. (2021). Effect of elevated temperatures on mechanical properties of lightweight geopolymer concrete. Case Studies in Construction Materials, e00673.
  4. Tayeh, B. A., Zeyad, A. M., Agwa, I. S., & Amin, M. (2021). Effect of high temperatures on mechanical, radiation attenuation and microstructure properties of heavyweight geopolymer concrete. Structural Engineering and Mechanics, Vol. 80, No. 2 (2021) 181-199
  5. Abdelsamie1a, K., Agwa, I. S., Tayeh, B. A., & Hafez5c, R. D. A. (2021). Improving the brittle behaviour of high-strength concrete using keratin and glass fibres. ADVANCES IN CONCRETE CONSTRUCTION, 12(6), 469-477

 

  In 2022 (19)

 

1-         de Azevedo, A. R., Amin, M., Hadzima-Nyarko, M., Agwa, I. S., Zeyad, A. M., Tayeh, B. A., & Adesina, A. (2022). Possibilities for the application of agro-industrial wastes in cementitious materials: a brief review of the Brazilian perspective. Cleaner Materials, 3, 100040.

2-         Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2022). Effect of ferrosilicon and silica fume on mechanical, durability, and microstructure characteristics of ultra high-performance concrete. Construction and Building Materials, 320, 126233.

3-         Tayeh, B. A., Hakamy, A., Amin, M., Zeyad, A. M., & Agwa, I. S. (2022). Effect of air agent on mechanical properties and microstructure of lightweight geopolymer concrete under high temperature. Case Studies in Construction Materials, 16, e00951.

4-         Zeyad, A. M., Tayeh, B. A., Adesina, A., de Azevedo, A. R., Amin, M., Hadzima-Nyarko, M., & Agwa, I. S. (2022). Review on effect of steam curing on behavior of concrete. Cleaner Materials, 3, 100042.

5-         Adesina, A., de Azevedo, A. R., Amin, M., Hadzima-Nyarko, M., Agwa, I. S., Zeyad, A. M., & Tayeh, B. A. (2022). Fresh and mechanical properties overview of alkali-activated materials made with glass powder as precursor. Cleaner Materials, 3, 100036.

6-         Amin, M., Hakeem, I. Y., Zeyad, A. M., Tayeh, B. A., Maglad, A. M., & Agwa, I. S. (2022). Influence of recycled aggregates and carbon nanofibres on properties of ultra-high-performance concrete under elevated temperatures. Case Studies in Construction Materials, e01063.

7-         Agwa, I. S., Zeyad, A. M., Tayeh, B. A., Adesina, A., de Azevedo, A. R., Amin, M., & Hadzima-Nyarko, M. (2022). A comprehensive review on the use of sugarcane bagasse ash as a supplementary cementitious material to produce eco-friendly concretes. Materials Today: Proceedings.

  1. Amin, M., Hakeem, I. Y., Zeyad, A. M., Tayeh, B. A., Maglad, A. M., & Agwa, I. S. (2022). Influence of recycled aggregates and carbon nanofibres on properties of ultra-high-performance concrete under elevated temperatures. Case Studies in Construction Materials, 16, e01063.
  2. Hakeem, I. Y., Amin, M., Abdelsalam, B. A., Tayeh, B. A., Althoey, F., & Agwa, I. S. (2022). Effects of nano-silica and micro-steel fiber on the engineering properties of ultra-high performance concrete. Structural Engineering and Mechanics, 82(3), 295-312.
  3. Amin, M., El-Aziz, A., Agwa, I. S., & Abu El-Hassan, K. (2022). Properties and Microstructure of High Strength Concrete Incorporating Different Supplementary Cementitious Materials. In Key Engineering Materials (Vol. 921, pp. 247-257). Trans Tech Publications Ltd.
  4. Agwa, I. S., Zeyad, A. M., Tayeh, B. A., & Amin, M. (2022). Effect of different burning degrees of sugarcane leaf ash on the properties of ultrahigh-strength concrete. Journal of Building Engineering, 104773.
  5. Amin, M., Tayeh, B. A., Kandil, M. A., Agwa, I. S., & Abdelmagied, M. F. (2022). Effect of Rice Straw Ash and Palm Leaf Ash on the Properties of Ultrahigh-performance Concrete. Case Studies in Construction Materials, e01266.
  6. Zeyad, A. M., Hakeem, I. Y., Amin, M., Tayeh, B. A., & Agwa, I. S. (2022). Effect of aggregate and fibre types on ultra-high-performance concrete designed for radiation shielding. Journal of Building Engineering, 104960.
  7. Attia, M. M., Abdelsalam, B. A., Amin, M., Agwa, I. S., & Abdelmagied, M. F. (2022). Metal-Nails Waste and Steel Slag Aggregate as Alternative and Eco-Friendly Radiation Shielding Composites. Buildings12(8), 1120.
  8. Hakeem, I. Y., Amin, M., Zeyad, A. M., Tayeh, B. A., Maglad, A. M., & Agwa, I. S. (2022). Effects of nano sized sesame stalk and rice straw ashes on high-strength concrete properties. Journal of Cleaner Production, 133542.
  9. Hakeem, I. Y., Agwa, I. S., Tayeh, B. A., & Abd-Elrahman, M. H. (2022). Effect of Using a Combination of Rice Husk and Olive Waste Ashes on High-strength Concrete Properties. Case Studies in Construction Materials, e01486.
  10. Heniegal, A. M., Agwa, I. S., Youssef, H., & Amin, M. (2022). Properties and durability of high performance heavy weight concrete incorporating black sand and different heavy weight aggregates types. NeuroQuantology20(8), 2056-2069.
  11. Amin, M., Attia, M. M., Agwa, I. S., Elsakhawy, Y., Abu el-hassan, K., & Abdelsalam, B. A. (2022). Effects of sugarcane bagasse ash and nano eggshell powder on high-strength concrete properties. Case Studies in Construction Materials, e01528.
  12. Heniegal, A. M., Amin, M., Nagib, S. H., Youssef, H., & Agwa, I. S. (2022). Effect of nano ferrosilicon and heavyweight fine aggregates on the properties and radiation shielding of ultra-high performance heavyweight concrete. Case Studies in Construction Materials, 17, e01543.

 

 

  In 2023 (17)
  1. Mohy S. Fattouh, Bassam A. Tayeh, Ibrahim Saad Agwa, Elsayed K. Elsayed. (2023). Improvement in the flexural behaviour of road pavement slab concrete containing steel fibre and silica fume. Case Studies in Construction Materials 18 (2023) e01720.
  2.           Mohamed Amin, Ahmad A. Hakamy, Abdullah M. Zeyad, Bassam A. Tayeh , Ibrahim Saad Agwa. (2023). Improving the brittle behavior of high-strength shielding concrete blended with lead oxide, bismuth oxide, and tungsten oxide nanoparticles against gamma ray. Structural Engineering and Mechanics.
  3. Abdal, S., Mansour, W., Agwa, I., Nasr, M., Abadel, A., Onuralp Özkılıç, Y., & Akeed, M. H. (2023). Application of Ultra-High-Performance Concrete in Bridge Engineering: Current Status, Limitations, Challenges, and Future Prospects. Buildings, 13(1), 185.
  4. Maglad, A. M., Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2023). Engineering Properties of Ultra-High Strength Concrete containing Sugarcane Bagasse and Corn Stalk Ashes. Journal of Materials Research and Technology.
  5. Amin, M., Agwa, I. S., Mashaan, N., Mahmood, S., & Abd-Elrahman, M. H. (2023). Investigation of the Physical Mechanical Properties and Durability of Sustainable Ultra-High Performance Concrete with Recycled Waste Glass. Sustainability, 15(4), 3085.
  6. Abd-Elrahman, M. H., Agwa, I. S., Elsakhawy, Y., & Rizk, M. S. (2023). Effect of utilising ferrosilicon and recycled steel fibres on ultra-high-strength concrete containing recycled granite. Case Studies in Construction Materials, e01903.
  7. Youssf, O., Hassanli, R., Elchalakani, M., Mills, J. E., Tayeh, B. A., & Agwa, I. S. (2023). Punching Shear Behaviour and Repair Efficiency of Reinforced Eco-friendly Lightweight Concrete Slabs. Engineering Structures, 281, 115805.
  8. Hakeem, I. Y., Alharthai, M., Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2023). Properties of sustainable high-strength concrete containing large quantities of industrial wastes, nanosilica and recycled aggregates. Journal of Materials Research and Technology.
  9. Alyami, M., Amin, M., Zeyad, A. M., Tayeh, B. A., Hakeem, I. Y., & Agwa, I. S. (2023). Effect of agricultural olive, rice husk and sugarcane leaf waste ashes on sustainable ultra-high-performance concrete. Journal of Building Engineering, 106689.
  10. Abd-Elrahman, M. H., Agwa, I. S., Mostafa, S. A., & Youssf, O. (2023). Effect of utilizing peanut husk ash on the properties of ultra-high strength concrete. Construction and Building Materials384, 131398.
  11. Ghanim, A. A. J., Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2023). Effect of modified nanotitanium and fly ash on ultrahighperformance concrete properties. Structural Concrete.
  12. Hakeem, I. Y., Amin, M., Agwa, I. S., Abd-Elrahman, M. H., & Abdelmagied, M. F. (2023). Using a combination of industrial and agricultural wastes to manufacture sustainable ultra-high-performance concrete. Case Studies in Construction Materials, e02323.
  13. Hakeem, I. Y., Amin, M., Agwa, I. S., Abd-Elrahman, M. H., Ibrahim, O. M. O., & Samy, M. (2023). Ultra-high-performance concrete properties containing rice straw ash and nano eggshell powder. Case Studies in Construction Materials, e02291.
  14. Hakeem, I. Y., Amin, M., Agwa, I. S., Rizk, M. S., & Abdelmagied, M. F. (2023). Effect of using sugarcane leaf ash and granite dust as partial replacements for cement on characteristics of ultra-high performance concrete. Case Studies in Construction Materials, e02266.
  15. Hakeem, I. Y., Amin, M., Zeyad, A. M., Tayeh, B. A., Agwa, I. S., & Abu elhassan, K. Properties and durability of selfcompacting concrete incorporated with nanosilica, fly ash, and limestone powder. Structural Concrete.
  16. Hakeem, I. Y., Alharthai, M., Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2023). Properties of sustainable high-strength concrete containing large quantities of industrial wastes, nanosilica and recycled aggregates. Journal of Materials Research and Technology, 24, 7444-7461.
  17. Alyami, M., Hakeem, I. Y., Amin, M., Zeyad, A. M., Tayeh, B. A., & Agwa, I. S. (2023). Effect of agricultural olive, rice husk and sugarcane leaf waste ashes on sustainable ultra-high-performance concrete. Journal of Building Engineering, 72, 106689.

 

 

Publish Date

2/3/2024 12:00:00 AM

104

Authors