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Seyed Mohammad Razavi

Name

[Razavi, Seyed Mohammad]
  • Senior Lecturer

Professional Preparation

    • 2013 Ph.D. in Structural EngineeringUniversity of Texas at Arlington
    • 2007 M.Sc. in Earthquake EngineeringSharif University of Technology
    • 2005 B.Sc. in Civil EngineeringUniversity of Tehran

Appointments

    • Aug 2013 to Present Senior Lecturer
      University of Texas at Arlington

Publications

      Conference Paper 2013
      • Razavi, S.M., Heidarzadeh, N., "Seismic assessment of behavior of a 54 stories           reinforced concrete tower in Tehran", 2nd Tehran tower conference, Tehran,           Iran, 2007 (Farsi)
        {Conference Paper} [Non-refereed/non-juried]
      • 2013
        • Heidarzadeh, N.,Razavi, S. M., Shamsaei, N., “Behavior Study of High Impact Resistant Reinforced Concrete Frames Using Crack Conduction Method,” 8th Biennial ASME Conference on Engineering Systems Design and Analysis (ESDA), Torino, Italy, July 2006.
          {Conference Paper} [Non-refereed/non-juried]

        • Journal Article 2013
          • Abolmaali, A., Razavi, M., and Radulova, D. ,2012, “On the Concept of Earthquake Resistant Hybrid Steel Frames,” The Journal of Constructional Steel Research, Vol. 68, pp. 34-42.
            {Journal Article} [Non-refereed/non-juried]
          • 2013
            • Razavi, M., Kiamanesh, R., Abolmaali, A. ,2012, “Computational benchmarks in simulation of cyclic performance of steel connections using three-dimensional nonlinear finite element method,” International Journal of Computational Methods and Experimental Measurements, Accepted 26 March 2012
              {Journal Article} [Non-refereed/non-juried]

Courses

      • CE 2221-001 DYNAMICS

        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton’s Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; frictional forces; kinematics and kinetics of rigid bodies.

      • CE 2313-001 Mechanics of materials

        Concepts of stress and strain; stress-strain relationships. Behavior of members subjected to tension, compression, shear, bending, torsion, and combined loading. Deflections and elastic curves, shear and bending moment diagrams for beams.

      • CE 4347-001 REINFORCED CONCRETE DESIGN

        An analysis, design and synthesis course for concrete structures, emphasizing elastic analysis and strength design. Topics include strength and serviceability requirements. Design of one way slabs, rectangular beams, flanged sections and columns, and footings for strength, shear, bond, bearing, and serviceability. Building codes,  American Concrete Institute (ACI) specifications, material specifications, test methods, and recommended practice documents.

      • CE 2221-001 DYNAMICS

        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton’s Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; frictional forces; kinematics and kinetics of rigid bodies.

        Spring - Regular Academic Session - 2015 Download Syllabus Contact info & Office Hours
      • CE 3341-001 STRUCTURAL ANALYSIS

        Structural analysis/design process, structural forms, and basic structural elements. Analysis of statically determinate structures including beams, trusses, frames, and composite structures, shear and moment diagrams, influence lines, and moving loads. Methods to compute deflections including double integration, moment area, and virtual work. Methods of analysis for statically indeterminate structures including consistent deformation, slope deflection and moment distribution. Use of structural analysis programs.

        Spring - Regular Academic Session - 2015 Download Syllabus Contact info & Office Hours
      • CE 5312-001 ADVANCED CONCRETE DESIGN I

        Includes structural design of slender columns, walls, truss model for shear and torsion; structural systems such as continuous beams, two-way slabs, yield-line theory and shear friction. Behavior of reinforced concrete structures, with emphasis on ductility and detailing of frames, slabs, and detailing for seismic loads will be covered. Building codes, American Concrete Institute (ACI) specifications, material specifications, test methods, and recommended practice documents. Credit not granted for both CE 4361 and CE 5312

        Spring - Regular Academic Session - 2015 Download Syllabus Contact info & Office Hours
      • CE 2221-001 Dynamics

        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton’s Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; frictional forces; kinematics and kinetics of rigid bodies.

        Fall - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 4347-001 Reinforced Concrete Design

        An analysis, design and synthesis course for concrete structures, emphasizing elastic analysis and strength design. Topics include strength and serviceability requirements. Design of one way slabs, rectangular beams, flanged sections and columns, and footings for strength, shear, bond, bearing, and serviceability. Building codes,  American Concrete Institute (ACI) specifications, material specifications, test methods, and recommended practice documents.

        Fall - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 5312-001 Advanced Concrete Design I

        Includes structural design of slender columns, walls, truss model for shear and torsion; structural systems such as continuous beams, two-way slabs, yield-line theory and shear friction. Behavior of reinforced concrete structures, with emphasis on ductility and detailing of frames, slabs, and detailing for seismic loads will be covered. Building codes, American Concrete Institute (ACI) specifications, material specifications, test methods, and recommended practice documents. Credit not granted for both CE 4361 and CE 5312

        Fall - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 2311-001 Ce 2311-001

        Vector algebra; composition and resolution of forces; equivalence of force couple systems; equilibrium of force systems acting on particles, and force - couple systems acting on rigid bodies, and systems of rigid bodies; internal forces in rigid bodies; shear and moment diagrams; centroids and moments of inertia; and frictional forces.

        Spring - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 4347-001 Ce 4347-001

        An analysis, design and synthesis course for concrete structures, emphasizing elastic analysis and strength design. Topics include strength and serviceability requirements. Design of one way slabs, rectangular beams, flanged sections and columns, and footings for strength, shear, bond, bearing, and serviceability. Building codes,  American Concrete Institute (ACI) specifications, material specifications, test methods, and recommended practice documents.

        Spring - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 6357-001 Ce 6357-001

        Buckling of columns; approximate method of analysis for buckling problems; beam columns; structural system stability (buckling of frames); lateral torsional buckling; buckling of plates; and buckling of axially compressed cylindrical shells

        Spring - Regular Academic Session - 2014 Download Syllabus Contact info & Office Hours
      • CE 5315-001 Ce 5315-001

        Analysis of stresses and strains at a point, stress-strain relationships, stresses due to various leading conditions, theories of failure, energy methods, shear center, unsymmetrical bending, curved beams, torsion in closed and open cell cross-sections, principles of plastic analysis, and buckling analysis.

        Fall - Regular Academic Session - 2013 Download Syllabus Contact info & Office Hours
      • CE 4324-001 Ce 4324-001

        Analysis of stresses and strains at a point, stress-strain relationships, stresses due to various leading conditions, theories of failure, energy methods, shear center, unsymmetrical bending, curved beams, torsion in closed and open cell cross-sections, principles of plastic analysis, and buckling analysis.

        Fall - Regular Academic Session - 2013 Download Syllabus Contact info & Office Hours
      • CE 6355-001 EARTHQUAKE ENGINEERING

        Earthquake characteristics; design of structures to resist earthquakes. Characterization of earthquakes for design. Development of design criteria for elastic and inelastic structural response. Seismic performance of various structural systems. Prediction of nonlinear seismic behavior. Basis for code design procedures. Preliminary design of steel and reinforced concrete structures. Evaluation of earthquake vulnerability of existing structures and rehabilitation of seismic deficiencies.

        Fall - Regular Academic Session - 2013 Download Syllabus Contact info & Office Hours
      • CE 2313-001 Ce 2313-001

        Concepts of stress and strain; stress-strain relationships. Behavior of members subjected to tension, compression, shear, bending, torsion, and combined loading. Deflections and elastic curves, shear and bending moment diagrams for beams, and column theory.

        Fall - Regular Academic Session - 2013 Download Syllabus Contact info & Office Hours
      • CE 2210-001 PARTICLE DYNAMICS
        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton's Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; steady flow and variable mass systems; single degree of freedom vibration. Prerequisite: Grade of C or better in CE 2311; grade of C or better in MATH 2425.
        Summer - Regular Academic Session - 2013 Download Syllabus
      • CE 2313-001 Mechanics of materials
        Concepts of stress and strain; stress-strain relationships. Behavior of members subjected to tension, compression, shear, bending, torsion, and combined loading. Deflections and elastic curves, shear and bending moment diagrams for beams, and column theory. Prerequisite: Grade of C or better in CE 2311; Grade of C or better in MATH 2425.
        Summer - Regular Academic Session - 2013 Download Syllabus
      • CE 3341-001 STRUCTURAL ANALYSIS
        Structural analysis/design process, structural forms, and basic structural elements. Analysis of statically determinate structures including beams, trusses, frames, and composite structures, shear and moment diagrams, influence lines, and moving loads. Methods to compute deflections including double integration, moment area, and virtual work. Methods of analysis for statically indeterminate structures including consistent deformation, slope deflection and moment distribution. Use of structural analysis programs.
        Spring - Regular Academic Session - 2013 Download Syllabus
      • CE 2210-001 PARTICLE DYNAMICS
        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton's Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; steady flow and variable mass systems; single degree of freedom vibration. Prerequisite: Grade of C or better in CE 2311; grade of C or better in MATH 2425.
        Fall - Regular Academic Session - 2012 Download Syllabus
      • CE 2210-001 PARTICLE DYNAMICS
        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton's Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; steady flow and variable mass systems; single degree of freedom vibration. Prerequisite: Grade of C or better in CE 2311; grade of C or better in MATH 2425.
        Summer - Regular Academic Session - 2012 Download Syllabus
      • CE 2210-001 PARTICLE DYNAMICS
        Planar and spatial kinematics and kinetics of individual particles and systems of particles utilizing Newton's Laws of Motion, the Principle of Work and Energy, and the Principle of Impulse and Momentum; steady flow and variable mass systems; single degree of freedom vibration. Prerequisite: Grade of C or better in CE 2311; grade of C or better in MATH 2425.
        Summer - Regular Academic Session - 2011