Dr. Eethar Thanon Dawood Bakr
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Dr. Eethar Thanon Dawood Bakr

Lecturer
Technical College of Mosul, Iraq


Highest Degree
Ph.D. in Civil Engineering from Universiti Sains Malaysia, Malaysia

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Biography

Dr. Eethar Thanon Dawood Bakr obtained his Ph.D. in Civil Engineering from Universiti Sains Malaysia, Palau Pinang, Malaysia. Currently he is working as Lecturer at Technical College of Mosul, Building and Construction Department. His main area of expertise includes Construction Materials Technology, High Strength Concrete, Fiber Concrete, and Lightweight Concrete. He has published 25 research articles international journals, and 7 articles in international conferences contributed as author/co-author.

Area of Interest:

Engineering
100%
Civil Engineering
62%
Construction Technology
90%
Material Engineering
75%
Concrete Composites
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
29
Abstracts
0

Selected Publications

  1. Dawood, E.T. and M. Ramli, 2012. Mechanical properties of high strength flowing concrete with hybrid fibers. Construction Build. Mater., 28: 193-200.
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  2. Dawood, E.T. and M. Ramli, 2012. Durability of high strength flowing concrete with hybrid fibres. Construction Build. Mater. J., 35: 521-530.
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  3. Ramli, M. and E.T. Dawood, 2011. Study the hybridization of different fibers on the mechanical properties of concrete: A mini review. Asian J. Applied Sci., 4: 489-492.
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  4. Ramli, M. and E.T. Dawood, 2011. Performance of high strength flowing concrete containing steel fibre. Malaysia Construction Res. J., 6: 29-38.
  5. Ramli, M. and E.T. Dawood, 2011. Effect of steel fibers on the engineering performance of concrete. Asian J. Applied Sci., 4: 97-100.
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  6. Ramli, M. and E.T. Dawood, 2011. Comparative study between flowable high strength mortar and flowing high strength concrete. Concrete Res. Lett., 2: 249-261.
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  7. Ramli, M. and E. Dawood, 2011. High strength flowable mortar reinforced by steel fiber. Slovak J. Civil Eng., 3: 10-16.
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  8. Ramli, M. and E.T. Dawood, 2011. Effect of steel fibers on the engineering performance of concrete. Asian J. Appl. Sci., 4: 97-100.
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  9. Dawood, E.T., M. Ramli and N.S. Ismaeel, 2011. Production of HSC using Pumicite and water-reducing admixture. Proc. Inst. Civil Eng. Construct. Mater. J., 164: 131-142.
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  10. Dawood, E.T. and M. Ramli, 2011. Properties of high strength flowable mortar reinforced with different fibers. Concr. Res. Lett., 2: 315-325.
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  11. Dawood, E.T. and M. Ramli, 2011. Influence of hybrid fibers on toughness behavior of high strength flowing concrete. J. Arch. Civil Eng., 3: 249-260.
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  12. Dawood, E.T. and M. Ramli, 2011. High strength characteristics of cement mortar reinforced with hybrid fibres. Constr. Build. Mater., 25: 2240-2247.
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  13. Dawood, E.T. and M. Ramli, 2011. Evaluation of flowable high strength concrete used as repair material (review study). J. Applied Sci., 11: 2111-2113.
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  14. Dawood, E.T. and M. Ramli, 2011. Effects of steel fiber on high strength flowing concrete. Proc. Inst. Civil Eng. Construct. Mater. J., 164: 123-129.
  15. Dawood, E.T. and M. Ramli, 2011. Contribution of hybrid fibres on the properties of high strength concrete having high workability. Proceedings of the 12th East Asia Pacific Conference on Structural Engineering and Construction, Jan. 26-28, Hong Kong, China, pp: 293-293.
  16. Dawood, E.T. and M. Ramli, 2011. Contribution of hybrid fibers on the properties of high strength concrete having high workability. Proced. Eng., 14: 814-820.
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  17. Dawood, E.T. and M. Ramli, 2011. Characteristics and performance of flowing concrete {Review Study}. Asian J. Mater. Sci., 3: 1-4.
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  18. Shabbar, R., N. Noordin, E.T. Dawood and M.Z. Sulieman, 2010. Comparison between ribbed slab structure using lightweight foam concrete and solid slab structure using normal concrete. Concr. Res. Lett., 1: 19-34.
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  19. Ramli, M. and E.T. Dawood, 2010. Effects of palm fiber on the mechanical properties of lightweight concrete crushed brick. Am. J. Eng. Applied Sci., 3: 489-493.
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  20. Dawood, E.T. and M. Ramli, 2010. Proportioning of crushed brick concrete reinforced by palm fiber. J. Mater. Sci. Eng. Adv. Technol., 2: 77-95.
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  21. Dawood, E.T. and M. Ramli, 2010. Hollow block concrete units production using superplasticizer and pumicite. Aust. J. Civil Eng., 6: 35-46.
  22. Dawood, E.T. and M. Ramli, 2010. Flowable high-strength system as repair material. Struct. Concr., 11: 199-209.
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  23. Dawood, E.T. and M. Ramli, 2010. Development of high strength flowable mortar with hybrid fiber. Construction Build. Mater., 24: 1043-1050.
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  24. Thanon, E. and M. Ramli, 2009. Study the effect of using palm fiber on the properties of high strength flowable mortar. Proceeings of the 34th Conference on our World in Concrete and Structures, theme: August 16-18, 2009, Singapore, pp: 93-100.
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  25. Ramli, M. and E.T. Dawood, 2009. Study the effects of palm fiber on the properties of lightweight concrete crushed brick. Proceedings of the 7th Asia Conference Pacific Structural Engineering and Construction, November 2009, Kuala Lumpur -.
  26. Ramli, M. and E.T. Dawood, 2009. Performance of high strength flowing concrete reinforced by steel fiber. Proceedings of 3rd International Conference on Built Environment in Developing Countries-school of Housing, Building and Planning, (ICBEDCHBP`09), Malaysia, pp: 441-460.
  27. Dawood, E.T. and M. Ramli, 2009. Use of flowable high strength mortar as a repair material for sustainable engineering construction. Proceedings of 1st International Conference of Rehabilitation and Maintanance in Civil Engineering, March 21-22, 2009, South Africa, pp: 269-276.
  28. Ramli, M. and E.T. Dawood, 2008. Behavior of flowable high strength concrete repair materials for sustainable engineering construction. Proceedings of the 2nd International Conference on Built Environment in Developing Countries, December 3-4, 2008, Malaysia, pp: 444-460.
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  29. Dawood, E. and M. Ramli, 2008. Rational Mix design of lightweight concrete for optimum strength. Proceeindgs of the 2nd International Conference on Built Environment in Developing Countries, December 4, 2008, Penang Malaysia, pp: 515-526.