Prof Dr. Nazar Oukaili | Structural Engineering | Best Researcher Award

Prof Dr,Nazar Oukaili,University of Baghdad, Iraq

Prof. Dr. Nazar Oukaili is a distinguished academician and researcher affiliated with the University of Baghdad, Iraq. He holds expertise in [insert specific areas of expertise, research interests, or notable contributions if available]. Prof. Oukaili has contributed significantly to the field of [mention specific field if known], with a focus on [highlight any notable achievements, publications, or roles]. His academic journey includes [brief mention of educational background or significant roles]. Prof. Oukaili is recognized for his profound impact on [mention impact area, if applicable] and continues to inspire and mentor students and researchers in Iraq and beyond.

Education :

Teaching Experience:

Undergraduate Courses,Reinforced Concrete Design,Reinforced Concrete,Theory of Structures,Mechanics of Materials,Postgraduate Courses,Prestressed Concrete,Advanced Solid Mechanics,Nonlinear Structural Concrete Analysis

Work Experience:

Publications :

• Influence of Partial Prestressing on Strength, Stiffness and Cracking Resistance of Reinforced Concrete Members Exposed to Static and Cyclic Loading
• Strength of Partial Prestressed Concrete being Bended Elements with Mixed Reinforcement by Highly Strength Strands and Bar Reinforcement
• Design of Partially Prestressed Concrete Girders
• Stress-Strain in Strands and Bars of Partially Prestressed Concrete Elements
• Determination of Classes of Armature when Reinforcement is mixed
• Strength and Stress-Strain Condition of Reinforced Concrete Elements
• Determination of Load Capacity of Structural Concrete Members Using the Modified Stress-Strain Diagrams of Steel Reinforcement
• Determination of Load Capacity of Structural Concrete Members Using the Modified Diagrams
• Effect of Prestress and Variation in the Stress-Strain Diagrams on the Strength of Linear Reinforced Concrete Members
• Moment Capacity and Strength of Reinforced Concrete Members Using Stress-Strain Diagrams of Concrete and Steel
• Prestressed Steel in Compression Zone in Fully and Partially Prestressed Concrete Members
• Model for Predicting the Cracking Moment in Structural Concrete Members
• Theoretical and Experimental Study for the Strength of Structural Concrete Members
• Cracking Moment in Structural Concrete Flexural Members
• Criteria for Selecting Nonprestressed Steel in Partially Prestressed Concrete Members
• Tension Stiffening in Partially Prestressed Concrete Flexural Members
• Criteria for Selecting Nonprestressed Steel in Partially Prestressed Concrete Members
• Tension Stiffening in Partially Prestressed Concrete Flexural Members
• Tension Stiffening in Post-Tensioning Beams
• Computer Program for Predicting Ultimate Strength of Structural Concrete Sections of General Shape
• Computer Program to Study the Behavior of Structural Concrete Members under Static Loads
• Methodology for selecting Nonprestressed Steel in Post-Tensioning Beams
• Methodology for selecting Nonprestressed Steel in Post-Tensioning Beams
• Effect of Prestressing Force on Torsion Resistance of Concrete Beams
• Nonlinear Analysis of CFRP-Prestressed Concrete Beams Subjected to Incremental Static Loading by Finite Elements
• Flexural Behavior of the Structural Concrete Beams Reinforced with FRP under Static Loads
• Analytical Model for Predicting Displacement in Structural Concrete Beams
• Dowel Action Between Two Concretes
• Experimental Investigation of Reinforced Concrete Flexural Beams Strengthened or Repaired with CFRP
• Short Term Deflection of Ordinary, Partially Prestressed and CFRP Bars Reinforced Concrete Beams