Curriculum Vitae






Abdul-Hamid Zureick

Professor
Structural Engineering, Mechanics and Materials
Mason 3140C
404.894.2294




Biography

Abdul-Hamid Zureick is Professor of Structural Engineering, Mechanics, and Materials at the School of Civil and Environmental Engineering at Georgia Tech. He earned his BCE from Tishreen University, Syria in 1978 and his M.S. and Ph.D. degrees from the University of Illinois at Urbana-Champaign in 1982 and 1985, respectively

Professor Zureick is an authority on the use of innovative materials in civil engineering applications. His research has been to develop criteria and specifications for the design, testing, and construction of polymer composite structural systems. He serves on the editorial boards of the Journal of Composites for Construction and Structural Engineering and Mechanics,  and was the founder and first Chair of the ASTM International Technical Subcommittee on Composites for Civil Engineering and Marine Applications.  In 2007, he guided the National Cooperative Highway Research Program (NCHRP) Project 10-73, which led to the development of the first AASHTO Guide Specifications for Design of Bonded FRP Systems for Repair and Strengthening of Concrete Bridge Elements, published in 2012.

Professor Zureick received numerous awards and recognitions, notable among them is the 1989 ASCE Norman Medal, the highest honor granted by the American Society of Civil Engineers for a technical paper judged worthy of special commendation for its merit as a contribution to the Engineering Science. He has frequently served as a consultant, an invited speaker, and a panelist on behalf of a number of Federal, State, and private organizations in the United States and around the world.

Education

  • Ph.D., Civil Engineering, University of Illinois at Urbana-Champaign, 1985.
  • M.S., Civil Engineering, University of Illinois at Urbana-Champaign,1982.
  • B.S., Civil Engineering, Tichreen University, Lattakia, Syria, 1978.

Research Interests

  • High-performance fiber-reinforced polymeric composite materials and structural systems
  • Structural stability
  • Design of steel structures
  • Structural optimization
  • Bridge structures
  • Anisotropic elasticity

Honors

  • 2007 ASTM D30 Composite Materials Award for technical excellence and persistence in the development, approval, and publication of ASTM 7290”. Evaluating Material Property Characteristic Values for Polymeric Composites for Civil Engineering Structural applications.
  • 2007 ASTM D30 Composite Materials Award of Appreciation “for technical excellence and persistence in the development, approval, and publication of ASTM 7205 “Test Method for Tensile Properties of Fiber Reinforced Polymer Matrix Composite Bars”. This is the first American Concrete Institute standard transitioned into ASTM D30, and results from your and Russell Gentry’s leadership in facilitating the relationship between ACI and D30”
  • 2004 ASTM D30 Award of Appreciation “for the role as co-editor of STP 1416 Composite Materials, Testing, Design, and Acceptance Criteria”
  • 2001 Georgia Tech-School of Civil & Environmental Engineering Award of Appreciation “In recognition and acknowledgement of your outstanding devotion and exemplary service as the Group Coordinator of the Structural Engineering Program from 1993-2001”
  • The Composite Institute Award of Excellence (1997) for the innovative design of the Twin-Webbed, Cellular I-section with Transverse Stiffeners.
  • ASCE Norman Medal, 1989
  • SPI-Composites Institute Best Paper Award- Testing Category, 1994.
  • ASCE Georgia Tech 1988 Outstanding Faculty Member
  • Tichreen University, First Rank Student in the years 1974, 1975, 1976, and 1978

Patents

  • Fiber-Reinforced Polymeric Deck System, United States Patent & Trademark Office, U.S. Serial No. 60/261,951, January 2001, Pending.

Articles

  1. Zureick, Abdul-Hamid (2014) Discussion of "Web Buckling in Pultruded Fiber­ Reinforced Polymer Deep Beams subjected to Concentrated Loads" by David T. Borowicz and Lawrence C. Bank, Journal of Composites for Construction, June, A4013014. DOI: 10.1061/ (ASCE) CC.1943-5614.0000360.
  2. Zureick (2012). Discussion of “LRFD Factors for Pultruded Wide Flange Columns,” ASCE Journal of Structural Engineering, May, pp. 658-659
  3. Wang, N., C. O’Malley, B. R. Ellingwood and A.-H. Zureick (2011) “Bridge rating using system reliability assessment, Part II: Improvements to bridge rating practices” Journal of Bridge Engineering, ASCE, 16, pp.854-862.
  4. Wang, N., B. R. Ellingwood and A.-H. Zureick (2010) “Bridge rating using system reliability assessment, Part I: Assessment and verification by load testing” Journal of Bridge Engineering, ASCE, 16, pp. 863-871.
  5. Wang, N., B. R. Ellingwood, Abdul-Hamid Zureick (2010) “Reliability-based evaluation of flexural members strengthened with externally bonded fiber-reinforced polymer composites” Journal of Structural Engineering, ASCE, Vol. 136, No. 9, pp.1151-1160.
  6. Engindeniz, M. and Zureick A. (2008). “Deflection Response of Glass Fiber-Reinforced Pultruded Components in Hot Weather Climates,” ASCE Journal of Composites for Construction,
  7. Enginddeniz, M.; Kahn, L. and Zureick, A. (2007). “Performance of an RC Corner Beam Column Joint Severely Damaged under Bidirectiona Loading and Rehabilitated with FRP Composites,” ACI Special Publication: Seismic Strengthening of Concrete Buildings Using FRP Composites, In Press.
  8. Zureick, Abdul-Hamid, Bennett, Richard M., and Ellingwood, Bruce E. (2006) “Statistical Characterization of Fiber-Reinforced Polymer Composite Material Property for Structural Design, ASCE Journal of Structural Engineering, August,132 (8) pp. 1320-1327.
  9. Engindenez, Murat, Kahn, Lawrance F., and Zureick, Abdul-Hamid (2005). “Repair and Strengthening of Reinforced Concrete Beam-Column Joints: State-of-the-Art, ACI Structural Journal, Vol. 102, No. 2, March-April, 187-197.
  10. Alqam, Maha, Bennet, Richard, M., and Zureick, Abdul-Hamid (2004).” Probabilistic Design of Concentrically loaded FRP Compression Memmbers,” ASCE Journal of Structural Engineering, to appear in December.
  11. Linzell DG, Leon RT, Zureick AH (2003). “Instrumentation planning and validation for full-scale bridge testing,” EXPERIMENTAL TECHNIQUES 27 (3): 29-33 MAY-JUN 2003.
  12. Linzell DG, Zureick A, and Leon RT (2003). “Comparison of measured and predicted response of manufactured circular steel tubular members under concentric and eccentric compressive and tensile loads” ENGINEERING STRUCTURES 25 (8): 1019-1031 JUL.
  13. Golden, R. J., Johnson W. S., and Zureick, A. (2002). “Composite for Infrastructure Rehabilitation: Tensile Testing, Failure Modes, and Data Scatter,” Composite Materials: Testing and Design 14th Volume, ASTM STP 1436
  14. Alqam, Maha, Bennet, Richard, M., and Zureick, Abdul-Hamid (2002). “ Three-parameter vs. two parameter Weibull distribution for pultruded composite material properties,” Composite Structures, 58, pp 497-503.
  15. Zureick, A., and Kahn, L. F. (2001). “Fiber-Reinforced Polymer Composite Materials for Rehabilitation of Reinforced Concrete Structures,” ASM Engineered Materials Handbook: Composites, pp. 906-913.
  16. Haj-Ali R, Kilic H, Zureick, AH (2001). “Three-dimensional micromechanics-based constitutive framework for analysis of pultruded composite structures,” JOURNAL OF ENGINEERING MECHANICS-ASCE 127 (7): 653-660 JUL 2001
  17. Acosta, Felipe J. and Zureick, A. (2001). “Determinacion Experimental De Las Propiedades Mechanicas De Losas Para Puentes De Polimeros Reforzados Con Fibras,” determination of the mechanical properties of fiber-reinforced polymeric bridge decks, Revista Internacional De Desastres Naturels, Accidentes E Infrastructura Civil, Volumen 1, Numero 1, Mayo, pp. 3-20.
  18. Brown, Richard T. and Zureick, Abdul-Hamid (2001). “Lightweight composite truss section decking,” Marine Structures, 14, pp. 115-132.
  19. Zureick, A., and Steffen, R. (2000) “Behavior and Design of Concentrically Loaded Pultruded Angle Struts,” ASCE Journal of Structural Engineering, Vol. 126, No. 3, March, pp. 406-416.
  20. Zureick A, Linzell D, Leon RT, et al. (2000). “Curved steel I-girder bridges: experimental and analytical studies,” ENGINEERING STRUCTURES 22 (2): 180-190 FEB.
  21. Kim, Y. S., Kardomateas, G. A., and Zureick, A. (1999). “Buckling of Thick Orthotropic Cylindrical Shells Under Torsion, Submitted, Journal of Applied Mechanics, ASME, Vol. 66, March, pp. 41-50.
  22. Zureick A., and Naqib, R. (1999) “Horizontally Curved Steel I-Girders, State-of-the-Art: Part I-Analysis Methods,” Journal of Bridge Engineering, Vol. 4, No. 1, pp. 1-10.
  23. Zureick, A. and Shih, B. (1998). “Local Buckling of Fiber-Reinforced Polymeric Structural Members Under Linearly-Varying Edge Loading, Part I-Theoretical Formulation,” Composite Structures, Vol.41, pp. 79-86.
  24. Zureick, A. (1998). “FRP Pultruded Structural Shapes,” Progress in Structural Engineering and Materials, Vol.1, No. 2, pp. 143-149.
  25. Littles, Jerrol, W., Jr., Jacobs, Laurence J., and Zureick, Abdul-Hamid (1998) )"Single-Sided Ultrasonic Technique to Characterize Thick FRP Composites," Journal of Nondestructive Evaluation, Vol. 17, No. 4, pp. 223-230.
  26. Littles, J.W.; Jacobs, L.J. and Zureick, A. (1998). “Application of Ultrasonic Techniques for the Characterization of Pultruded Composite Structural Members,” Journal of Composites for Construction, Vol. 2, No. 3, pp. 126-131.
  27. Scott, D. and Zureick A. (1998). “Creep Behavior of Pultruded Materials,” Journal of Composite Science and Technology, Vol. 58, No. 8, pp. 1361-1369.
  28. Zureick A., Chajes RJ (1998). “Civil infrastructural applications of composite materials,” COMPOSITES SCIENCE AND TECHNOLOGY 58 (8): 1257-1258.
  29. Zureick, A. “Design of Pultruded Structural Members,” Progress in Structural Engineering and Materials, Editor: David Nethercot, (Invited Contribution), Vol.1, No.2, pp.143-149.
  30. Scott, D. and Zureick A. (1998). “Creep Behavior of Pultruded Materials,” Journal of Composite Science and Technology, Vol. 58, No. 8, pp. 1361-1369.
  31. Naqib, R.,.Zureick, A., and Will, K.M. (1996)"Practical Considerations in Two-Dimensional Shape Optimization of Elastic Continuum," Computers and Structures, Vol. 61, No. 2, pp. 351-330.
  32. Zureick, A. (1998). “FRP Pultruded Structural Shapes,” Progress in Structural Engineering and Materials, Vol.1, No. 2, pp. 143-149.
  33. Zureick A. and Scott D. (1997). “ Short-Term Behavior of Fiber-Reinforced Polymeric Slender members Under Axial Compression” ASCE Journal of Composites for Construction, November, pp. 140-149.
  34. Naqib, R.,.Zureick, A., and Will, K.M. (1996)"Practical Considerations in Two-Dimensional Shape Optimization of Elastic Continuum," Computers and Structures, Vol. 61, No. 2, pp. 351-330.
  35. Zureick, A. (1993)"Design Strength of Concentrically Loaded Single Angle Struts,"AISC Engineering Journal, First Quarter 1993, pp. 17 30.
  36. Zureick, A. H., (1989) "Spheroidal Cavity with Prescribed Asymmetric Displacements in Three-Dimensional Transverse Isotropy," ASCE Journal of Engineering Mechanics, November 1989, pp. 2427-2439.
  37. Zureick, A. H., and Choi, D. H. (1989). "The Rotation of a Rigid Spheroidal Inclusion Embedded in a Transversely Isotropic Medium," International Journal of Engineering Science, Vol. 27, No. 12, 1989, pp. 1603-1612.
  38. Zureick, A. H. (1989). "The Asymmetric Displacement of a Rigid Spheroidal Inclusion Embedded in a Transversely Isotropic Medium," Acta Mechanica, Vol. 77, April 1989, pp. 101-110.
  39. Zureick, A. H. (1989). "Spheroidal Cavity with Prescribed Asymmetric Displacements in Three-Dimensional Transverse Isotropy," ASCE Journal of Engineering Mechanics, November 1989, pp. 2427-2439.
  40. Zureick, A. H., and Eubanks, R. A. (1988). "Spheroidal Cavity with Prescribed Asymmetric Tractions in Three-Dimensional Transverse Isotropy," ASCE Journal of Engineering Mechanics, January 1988, pp. 24-48.

Books

  1. Zureick, Abdul-Hamid and Nettle, Alan T. (2002). “Composite Materials: Testing, Design, and Acceptance Criteria,” ASTM International, STP 1476.
  2. Zureick, A. and Kahn, L. F. (2001). Editors of “Rehabilitation of Reinforced Concrete Structures Using Fiber-Reinforced Polymer Composites,” ASM Handbook, Volume 21, Composites, pp.906-913.
  3. Zureick, A. (1997). “Stability of Horizontally Curved Steel Bridges,” Chapter 9, Guide to Stability Design Criteria For Metal Structures, Fifth Edition, Editor: T. V. Galambos, 1997, 23 pages.
  4. Zureick, A., and Gates T. (1996). Editors of “High Temperature and Environmental Effects on Polymeric Composites, 2, ASTM STP 1302, 1996.

Proceedings

  1. Bechtel, A., Krstic, A., Mankbadi, R., Ramakrishna, A., Santullo, L., Torres, A., and Zureick, A. {2017). "State of Practice for the Design of Bridge Fender Systems with Polymeric Materials" Written for presentation at the Transportation Research Board 96th Annual Meeting. {No. 17-01014)
  2. Wang, N., Ellingwood, B.R. and Zureick, A. (2011). “Reliability-based framework for achieving realistic and time-dependent highway bridge capacity ratings.” ICASP 11 August, 2011.
  3. Zureick, Abdul-Hamid (2008). “Short-term structural design of single angle pultruded members under compression”
  4. Engindeniz, M.; Kahn, L.; and Zureick, A. (2007). “Bidirectional Loading of Pre-1970 Corner Beam-Column Joints Before and after Rehabilitation with CFRP Composites,” Proceedings of the 6th Turkish national Conference on Earthquake Engineering, Istanbul, Turkey, October, Volume 1, pp. 551-562.
  5. Zureick, A. and Ellingwood, B. R. (2007). “Qualification, Acceptance, and Design Criteria for Externally Bonded FRP Reinforcement for Concrete Structures” FRPRCS8, Patras, Greece, Editor: T. Triantafillou, pp.
  6. Zureick, Abdul-Hamid (2005). “Proposed Short-term design strength equations for pultruded single angle compression members,” Composites for Construction Conference, CCC2005, July 12, Lyon, France, Editor: P. Hamlin, pp.
  7. Aboutaha, R., Leon, R., and Zureick, A. (1997). “Rehabilitation of a damaged AASHTO Type II Prestressed Girder Using CFRP,” Second Symposium on Practical Solutions for Bridge Strengthening and Rehabilitation, Kansas City, Missouri, March 24-25.
  8. Jacobs, L.J, Littles, J. and Zureick, A. (1997). “Characterization of Structural Composites for Highway Applications,” 23rd Annual Review in Progress in Quantitative Nondestructive Evaluation, Brunswick, Maine, July 29-August 3, 1996, Vol. 16B, pp. 1807-1814.
  9. Burrell, J. D., Zureick, A. and Grubb, M. A. (1997). “FHWA Curved Steel-Girder Project: Analysis of Curved steel I-Girder Test Frame,” ASCE Structures Congress
  10. Zureick, A., Leon, R. T., Burrell, J. and Linzell, D. (1997). “Curved Steel Bridges: Experimental and Analytical Studies,” Proceedings, Innovations in Structural Design: Strength, Stability, Reliability, A Symposium Honoring Theodore V. Galambos, Editors: J. Hajjar and R. Leon, June 6-7, pp.179-190.
  11. Zureick A. (1997). “Test Methods and Design Data for Long-Term Behavior of Civil Engineering Polymeric Composite Materials,” US-Canada-Europe Workshop on Bridge Engineering, July 11-15, 1997, Dubendorf, Switzerland.
  12. Srinivasan, Sridharan; Zureick, Abdul-Hamid, and Muzzy, John D. (1997). “Effect of Hot-Wet Environments on E-Glass/Vinylester Composites,” Volume 2, ANTEC 98 Proceedings, Atlanta, April 26-28, pp. 2255-2261.
  13. Martin, Jeff and Zureick, A. (1997). “Unique Pultruded Composites for construction/Infrastructure Applications, 10th Technical Conference on Composites in Corrosion and Construction, September 23, 1997, Las Vegas, NV.
  14. Littles, J., Jacobs, L. and Zureick, A. (1996). “Ultrasonic Characterization of FRP Composites for Bridge Applications,” ASCE 11th Engineering Mechanics Conference, Fort Laderdale, Florida, Vol. 2, pp. 959-962, May 19-22, 1996.
  15. Grubb, M. A., Yadloosky, J, Zureick, A. Leon, R. T., Burrell, J., Hall, D. H. (1996). “FHWA Curved steel Bridge Research project,” Proceedings of the Fourth National Workshop on Bridge Research in Progress, Buffalo, New York, June 17-19, 1996, pp. 183-188.
  16. Littles, J.W.; Jacobs, L.J. and Zureick, A.H. (1995). “Nondestructive Characterization of FRP Composites with Applications for Highway Structures,” the 21st Annual Review of Progress in Quantitative Nondestructive Evaluation, Snowmass, Colorado, July 31-August 5, 1994, Vol. 14A, pp. 2209-2214.
  17. Littles, J.W.; Jacobs, L.J. and Zureick, A.H. (1995). “Development of Nondestructive Evaluation Techniques for the Characterization of FRP Components,” Proceedings of Structures Congress XIII, Editor: Masoud Sanayei, Vol. 1, pp. 696-699.
  18. Duwadi, S.R.; Hall, D.H.; Yadlosky, J.M.; Yoo, C.H. and Zureick, A.H. (1995). “FHWA-CSBRP I-Girder Component Testing,” ASCE Structures Congress 1995, Boston, Massachusetts, April 3-5, pp 1695-1699, 1995.
  19. Zureick, A., Kahn, L.F., and Bandy, B. (1994). "Tests on Deep I-Shape Pultruded Beams," Forty-ninth Annual Conference, Composites Institute, Journal of Reinforced Plastics and Composites, Cincinnati, Ohio, February 7 - 9, pp. 8C/1 - 6.
  20. Zureick, A. and Kahn, L.F. (1994). "Tests on I-Shape Pultruded Beams," ASCE, Structures Congress, Vol. 2, pp. 1572-1577, April 24-28, 1994, Atlanta, Georgia.
  21. Wang, Y., Cho, B., and Zureick, A. (1993). “Fiber Reinforced Concrete Using Recycled Carpet Industrial Waste and its Potential Use in Highway Construction,” Symposium Proceedings on Recovery and Effective Reuse of Discarded Materials and By-Products for Construction of Highway Facilities, Denver,Colorado, October, 1993, pp. 4.111 - 4.11.
  22. Zureick, A. (1992). “ Research on the Behavior and Design of Pultruded Structural Members, Proceedings of the 1992 NSF Structures, Geomechanics and Building Systems Grantees’s Conference, June 10-12, 1992, San Juan, Puerto Rico, pp.179 - 181.
  23. Zureick, A., Yoon. S., and Scott, D. (1992). “Experimental Investigation on Concentrically Loaded Pultruded Columns,” Proceedings of the Second International Symposium, Textile Composites in Building Construction, Editors: P. Hamlin and G. Verchery, Lyon, France, June 23-25, 1992, Part 2, pp. 207 215.
  24. Zureick, A. (1992). " Research on the Behavior and Design of Pultruded Structural Members, Proceedings of the 1992 NSF Structures, Geomechanics and Building Systems Grantees’ Conference, June 10 - 12, San Juan, Puerto Rico, pp. 179 - 181.
  25. Scott, D., Yoon, S.J., and Zureick, A. (1992). “Full scale Test on Concentrically Loaded Fiber Reinforced Pultruded Columns” Proceedings of the Materials Engineering Congress, ASCE, Editor: Thomas D. White, August 10 12, Atlanta, Georgia, pp. 572 - 576.
  26. Yoon, S., Scott, D. and Zureick, A. (1992). “An Experimental Investigation of the Behavior of Concentrically Loaded Pultruded Columns,” First International Conference on Advanced Composite Materials in Bridges and Structures, Editors: K. W. Neale and P. Labossière, October 7-9, 1992, Sherbrooke, Quebec, pp.309 - 317.
  27. Vakiener, A., Zureick, A., and Will, K. M. (1991).“Prediction of Local Flange Buckling in Pultruded Columns”, will be presented at the ASCE Conference on Composites Structures for Civil Engineering Structures, Las Vegas, 1991, pp. 302 312.
  28. Baker, N., Zureick, A., and Anand, S. (1991). ”Knowledge-Based Structural Design-An Implementation Using AISC-LRFD,” Proceedings of the 7th Conference on Computing in Civil Engineering, Washington, D.C., May 1991, Editors L. F. Cohn and W. Rasdorf, pp. 620-629.

Presentations

  1. Innovative Materials for Future Construction, Structural Engineering Association of Georgia, Atlanta, September 16, 2010.
  2. Experimental Investigations for Strengthening Bridge Structures, ASCE SEI Meeting, Atlanta, October 18, 2010
  3. “Future Structures”, Science Olympiad 2009, Cobb County Regional Competition, Walton High School, 3-7,2009
  4. “Design of Stainless Steel Structures” September 19, 2007, Bechtel Corporation, Maryland.
  5. “Material and Structural Design Properties of Stainless Steel for Industrial Applications, August 30, 2007, Black and Veach, Kansas City.
  6. “Material and Structural Design Properties of Stainless Steel for Industrial Applications, August 31, 2007, Burns and McDonald, Kansas City.
  7. “Design of Stainless Steel Structural Members” August 15, 2007, HDR Engineering, Los Angeles.
  8. “Design of Stainless Steel Structural Members” August 16, 2007, Black & Veach, Los Angeles.
  9. Design of Stainless Steel Structures for Offshore Facilities, Kellogg Brown and Root, Houston, September 19, 2007.
  10. Stainless Steel Material Selection and Structural Design, Mustang Engineering, Houston, Texas, September 20, 2007.
  11. “Qualification, Acceptance, and Design Criteria for Fiber-Reinforced Polymer Composite Structures, Corrosion Conference, Las Vegas, April 25-26, 2007.
  12. Polymeric Composite Materials for New Construction and for Rehabilitation of Structures, February 4, 2007, Vanderbilt University, Nashville, Tennessee.
  13. Zureick, A. (2006). “Polymeric Composites in Construction”, 4th Jordanian Civil Engineering Conference, Amman, Jordan, April 10, 2006.
  14. Zureick, Abdul-Hamid (2005). “Qualification, Acceptance, and Design Criteria for Fiber-Reinforced Polymer Composite Structures, Corrosion Conference, Las Vegas, April 25-26, 2007.
  15. Zureick, A. (2005). “Polymer Composite Materials in New Construction” July 10, Composite for Construction Conference CCC2005, Lyon, France.
  16. Zureick (2004). Advances in Fiber-Reinforced Polymeric Composites in Infrastructure, The 2004 Annual Meeting of the American Society of Composites, October 18, Atlanta.
  17. Polymeric Composite Materials for New Construction, May 2, 2003, Purdue University, West Lafayette, Indiana.
  18. Zureick (2000). Fiber-reinforced polymeric bridge decks-from theory to practice, International Composite Meeting ACUN-2, Transportation Sydney, Australia, February 14, 2000.
  19. Accelerated Testing and Prediction of Long-Term Structural Behavior of Composites, Transportation Research Board 78th annual Meeting, Session 176: Fiber-Reinforced Plastics Composite Structures, Washington D.C., January 12, 1999.
  20. Fiber-Reinforced Polymer Bridge Decks, Transportation Research Board 78th annual Meeting, Session 310: Decks for Steel Bridges, Washington D.C., January 12, 1999.
  21. Accelerated Test Methods to Determine the Long-Term Behavior of FRP Composite Structures, Transportation Research Board, Washington DC., January 1998.
  22. High Performance Polymeric Composite Materials for Civil Engineering Applications,” 42nd Annual Structural Engineering Conference, Lawrence, Kansas, March 19, 1997.
  23. The Design of the Polymer Composite Twin-Webbed, Cellular I-section with Transverse Stiffeners, May 15, 1997, Bristol, Virginia.
  24. Strengthening of AASHTO Type II Girder with Carbon Fibers, January, 1997, Transportation Research Board, Washington DC.
  25. The Design of the Polymer Composite Twin-Webbed, Cellular I-section with Transverse Stiffeners, May 15, 1997, Bristol, Virginia.
  26. Use of Braided Fabrics for Reinforcing structural Components, A & P Technology, Inc., Covington, KY, May 20, 1997.
  27. Advanced Polymeric Composites for Construction, University of Cincinnati, Cincinnati, OH, May 21, 1997.
  28. Polymer Composites in the Rehabilitation of Bridges, Universiti Technolgi Malaysia, August 2, 1997.
  29. Development of Composite Materials for Civil Engineering Applications: Current Issues, Universiti Technolgi Malaysia, August 5, 1997.
  30. Strengthening Bridges with Carbon Fiber Composites, Mitsubishi Chemical Inc., Tokyo, Japan, July 29, 1997.
  31. The Design and Construction of a Fiber-Reinforced Composite Bridge Deck, Center for Innovative Technology, The Advanced Polymeric Composites for Construction, University of Cincinnati, Cincinnati, OH, May 21, 1997.
  32. Advanced Polymeric Composites for Construction, University of Cincinnati, Cincinnati, OH, May 21, 1997.
  33. Use of Braided Fabrics for Reinforcing structural Components, A & P Technology, Inc., Covington, KY, May 20, 1997.
  34. The Design and Construction of a Fiber-Reinforced Composite Bridge Deck, Virginia’s Center for Innovative Technology, August 25-26, 1997.
  35. Development of Composite Materials for Civil Engineering Applications: Current Issues, Universiti Technolgi Malaysia, August 5, 1997.
  36. Polymer Composites in the Rehabilitation of Bridges, Universiti Technolgi Malaysia, August 2, 1997.
  37. Strengthening Bridges with Carbon Fiber Composites, Mitsubishi Chemical Inc., Tokyo, Japan, July 29, 1997.
  38. Strengthening of AASHTO Type II Girder with Carbon Fibers, January, 1997, Transportation Research Board, Washington DC
  39. Load and Resistance Factor Design for Steel Structures, June 21, 1996, University Teknology Malaysia, Johor Bahru, Malaysia.
  40. Research Opportunities and Technology Implementation in the Area of Polymer Composite Materials for Construction for the Pacific Rim, June 23, 1996, University Teknology Malaysia, Johor Bahru, Malaysia.
  41. Tests on Pultruded Members, July 31, 1996, University of California, San Diego.
  42. Design of Polymer Composite Bridge Decks, Seminar to FHWA and DOT Bridge Engineers, October 2, 1996, Department of Transportation.
  43. Behavior and Design of Pultruded Structural Members, July 31, 1996, University of California, San Diego.
  44. Axial and Flexural Tests on Pultruded Sections, July 5, 1996, Lancaster University, Lancaster, England.
  45. Recent Advances in Composite Materials for Construction, July 2, 1996, University of Surrey, England.
  46. Research Opportunities and Technology Implementation in the Area of Polymer Composite Materials for Construction for the Pacific Rim, June 23, 1996, University Teknology Malaysia, Johor Bahru, Malaysia.
  47. Load and Resistance Factor Design for Steel Structures, June 21, 1996, University Teknology Malaysia, Johor Bahru, Malaysia.
  48. Behavior and Design of Axially Loaded Pultruded Members, June 16, 1996, University of Trento, Trento, Italy.
  49. Polymer Composite Materials for Infrastructure Applications, A special Session, ASTM Annual meeting, Phoenix, AZ, 1995.
  50. Design of Polymer Composite Bridge Decks, FHWA and DOT Bridge Engineers, October 2, 1996, Department of Transportation.
  51. Zureick (1996), Polymer Composite Materials for Construction: The Road from Research to Practice,” 3rd Asia Pacific Conference on Structural Engineering & Construction (APSEC 96), June 17-19, 1996, Puteri Pan pacific, Johor Bahru, Malaysia.
  52. Column Buckling Tests of Pultruded shapes, 70th annual meeting, Transportation Research Board, January 17, 1991, Washington, D.C.
  53. Research on Pultruded Columns," Presented to the Xi'an Brick and Tile Research Institute of People's Republic of China, Georgia Tech Manufacturing Center, August 3, 1990
  54. Stress Concentration in Three-Dimensional Anisotropic Elasticity, University of Kentucky, Lexington, May 11, 1990.

Reports

  1. Zureick, Abdul-Hamid, Ellingwood, Bruce R. Kim, Sung Hu, Bechtel, Andrew, O’Malley, Curtis, Shah, Falak, and Krapf, Carlyn (2012)- Bridge Repair and Strengthening Study, Part I, Draft report, Georgia department of Transportation.
  2. Wang, N., B. R. Ellingwood, A.-H. Zureick and C. O’Malley (2008) “Condition assessment of existing bridge structures, Task 1 - State of the art of bridge condition assessment” GDOT Project RP 05-01. (ftp://ftp.dot.state.ga.us/DOTFTP/Anonymous-Public/Research_Projects/)
  3. O’Malley, C., N. Wang, B. R. Ellingwood and A.-H. Zureick (2007) “Condition assessment of existing bridge structures: Report of Tasks 2 and 3 - Bridge Load Testing Program” GDOT Project RP 05-01. (ftp://ftp.dot.state.ga.us/DOTFTP/Anonymous-Public/Research_Projects/)
  4. Ellingwood, R. Zureick, A., Wang, N., O’Malley, C. (2009) “Condition assessment of existing bridge structures, Task 4 - Development of guidelines for condition assessment, evaluation and rating of bridges in Georgia” GDOT Project RP 05-01” (ftp://ftp.dot.state.ga.us/DOTFTP/Anonymous-Public/ Research_Projects/)
  5. Engindeniz, Murat, Kahn, Lawrance F., and Zureick, Abdul-Hamid (2004). Repair and Strengtheining of Non-Seismically Designed RC Beam-Column Joints-State-of-the-Art, Georgia Institute of Technology, School of Civil and Environmental Engineering, Structural Engineering, Mechanics, and Materials, Research Report No. 04-4.
  6. Zureick, A., Bennett, R., and Alqam, M. (2003). ““Acceptance Test Specifications and Guidelines for Fiber-Reinforced Polymeric Bridge Decks,” Final Report, Volume 2, Determination of Material Property Characteristic Values of Reinforced Polymeric Composites, Submitted to the Federal Highway Administration, Contract No. DTFH 61-00-C-00022.
  7. Zureick, A., Engideniz, M, Arnette, J, and Schneider, C. (2003). “Acceptance Test Specifications and Guidelines for Fiber-Reinforced Polymeric Bridge Decks,” Final Report, Volume 1, Submitted to the Federal Highway Administration, Contract No. DTFH 61-00-C-00022.
  8. Zureick, A. (2002). “Proposed Specifications for Polymeric Composite Materials for Rehabilitating Concrete Structures, Georgia Department of Transportation.
  9. Zureick, A., Kahn, L. F. and Kim, Y.S. (2002). “Strengthening of Reinforced Concrete Bridge Deck Slabs with Shop-Manufactured Carbon Composite Plates, Structural Engineering, Mechanics, and Materials, Resaerch Report No. 02-3, 53 pages.
  10. Zureick, A., White, D. W., Phoawanich, N. and Park, J. (2002). “Shear Strength of Horizontally Curved Steel I-Girders-Experimental Tests, Structural Engineering, Mechanics, and Materials, Resaerch Report No. 02-4, 157 pages.
  11. Zureick A. and Kim Y.S. (2001). Flexural Response of SEATIMBERTM and SEAPILETM Components Reinforced with E-glass bars, Seaward International, 28 pages.
  12. Zureick A. and Wagner, M. (2001). “An investigation of fiber-reinforced recycled plastic/composite railroad crossties,” Seaward International/NIST/ATP.
  13. Zureick, A. (1997). Polymeric Composite Structures, Material and Structural Properties of Bridge Deck Components Reinforced with Stitched Fabrics, ARC/ARPA
  14. Zureick (1997). Material and Structural Properties of Bridge Deck Components Reinforced with Stitched Fabrics, ARC/ARPA
  15. “Advanced Composites in Bridges in Europe and Japan, p126 pages, October 1997, Federal Highway Administration. Prepared by a 14-member panel (2 from academia, 3 from industry, and 9 from Federal and State Agencies), FHWA Contract No. DTFH61-96-C00060.
  16. “Materials for Tomorrow’s Infrastructure: A ten-year plan for deploying high-performance construction materials and systems, fiber-reinforced polymer composite section”, Civil Engineering Research Foundation, CERF Report # 94-5011, Washington, DC., 16p, 1994. This report was prepared by a panel consisting of 23 members distributed as follows: 3 from academia, 11 from the industry, and 9 from governmental agencies.
  17. Coordinated Program For Research on Advanced Composites in Construction, 49 pages, September 1994, Division of Mechanical and Structural Systems, National Science Foundation (NSF), prepared by 7 members from the academia.
  18. Zureick, A., Naqib, R., and Yadlowski, J. (1994). “Curved Steel Bridge Research Project, Interim Report I: Synthesis,” Federal Highway Administration, Report No. FHWA-RD-93-129, December.
  19. Zureick, A. and Shih, B. (1994). Local Buckling of Fiber-Reinforced Polymeric Structural Members Under Linearly-Varying Edge Loading” (1994), FHWA.
  20. Zureick, A., Scott D., and Lai, James (1994). Creep Behavior of FRP Composites (1994), FHWA.
  21. Zureick, A. (1994). Allowable Stress for Pultruded Composite Sheet Piles Based on Component Tests, International Grating, October
  22. Zureick, A., Jacobs, L., and Oh, S. (1994). Impact Behavior and Test Methods for Fiber-Reinforced Polymeric Composite Structures, FHWA report, January.
  23. Zureick, A., Jacobs, L., and Littles, J. (1994). Nondestructive Evaluation and Monitoring Techniques for Fiber-Reinforced Polymeric Composite Structures, FHWA report.

Updated date: August 12, 2019 - 10:47