Mark Green

Professor

Office: Ellis-207

Queen's University
Kingston, ON K7L 3N6
Tel: (613) 533-2147
Fax: (613) 533-2128
greenm@queensu.ca

Mark Green

Overview:

Dr. Mark Green is interested in the structural performance in fire of concrete structures, applications of fibre reinforced polymers (FRPs) in structures, sustainable materials and buildings, and best practices for working with Indigenous communities on engineering projects. In particular, he has conducted extensive research over the past ten years on the fire resistance of concrete structure with FRPs. He has also examined the effects of cold regions on FRP strengthened concrete structures. He is currently researching the fire performance of buildings constructed with sustainable concrete such as ultra high performance concrete (UHPC), the effects of corrosion on the fire performance of concrete columns, and sustainable concrete containing bio-resins. He recently led a successful $1.65 million NSERC CREATE program, Sustainable Engineering in Remote Areas (SERA), which involved four universities and focussed on best practices for implementing sustainable engineering projects in partnership with Indigenous communities.

Dr. Green sits with the Turtle Clan in the Kenhtè:ke Longhouse in Tyendinaga. His Kanyen'kéha name is Rahswahérha (he builds a bridge). He was co-chair of Queen’s Truth and Reconciliation Commission Task Force (2016-17) and has been active in promoting engineering education for Indigenous students through Queen’s Indigenous Futures in Engineering (formerly Aboriginal Access to Engineering) initiatives.

 

 Education:

PhD1991 Engineering, Queens’ College, University of Cambridge, Cambridge, England, UK: “The Dynamic Response of Short-Span Highway Bridges to Heavy Vehicle Loads” Commonwealth Scholar
B.Sc.1987 Mathematics and Engineering (Structures Option), Queen's University, Kingston, Ontario, Canada. Rank: 1st in Faculty of Applied Science

Honours and Awards:
2021 Canadian Academy of Engineering Fellow
2020 American Concrete Institute Fellow
2019 Queen’s Faculty of Engineering and Applied Science 125th Anniversary Faculty Award
2017 Canadian Society for Civil Engineering Fellow
2016 International Institute for FRP in Construction Fellow
2014 Leverhulme Visiting Professor, (UK)
2013 Royal Academy of Engineering (UK) Distinguished Visiting Fellow: ranked as top proposal
2013 Professional Engineers of Ontario (PEO) Medal for Research and Development
2012 Queen’s University Employment Equity Award
2010 National Research Council (NRC) Award for the project: "Fire Resistance of FRP Reinforced Concrete Structures.”
2008 Best Materials Paper, Structural Faults and Repair
2000 Premier’s Research Excellence Award (PREA)
1999 Pratley Award for the Best Canadian Paper on Bridge Engineering
1997-98 Civil Engineering Teaching Award
1995 Best paper award Composite's Institute's 50th Annual Conference and Expo '95
1993 Queen’s National Scholar
1991-92 NSERC Postdoctoral Fellowship
1987-90 Commonwealth Scholarship
1987 Governor General’s Gold Medal, Queen’s University, Faculty of Applied Science

Professional and Academic Experience:
Mar 2020-June 2022 Provost and Vice-Principal (Academic), Queen's University, Kingston
July 2018-Dec 2019 Vice Dean, Engineering and Applied Science, Queen's University, Kingston
July 2015-June 2018 Associate Head, Civil Engineering, Queen's University, Kingston, Ontario
July 2002-Present Professor, Civil Engineering, Queen's University, Kingston, Ontario
July 2015, 2017,(invited 2018) Visiting Professor, Laboratoire de mécanique et matériaux du génie civil L2MGC, Université de Cergy-Pontoise, France 
July 2014-June 2015 Acting Head, Civil Engineering, Queen's University, Kingston, Ontario
Feb 2014-Apr 2014 Leverhulme Visiting Professor, Institute for Infrastructure and Environment, University of Edinburgh, Edinburgh, UK
Sept 2013-Oct 2013 Royal Academy of Engineering (UK) Distinguished Visiting Fellow, Institute for Infrastructure and Environment, University of Edinburgh, Edinburgh, UK
Jan 2013-Mar 2013 Acting Associate Dean (Academic), Faculty of Engineering & Applied Science, Queen's University, Kingston, Ontario
July 2009- June 2013 Associate Head, Civil Engineering, Queen's University, Kingston, Ontario
July 2008-June 2009 Undergraduate Chair, Civil Engineering, Queen's University, Kingston, Ontario
Aug 2006-Mar 2007 Visiting Professor, EMPA, Dubendorf, Switzerland; Civil, Building, and Environmental EngineeringVisiting Professor, University of Naples Federico II, Naples, Italy;Visiting Professor, Institute for Infrastructure and Environment, University of Edinburgh, Edinburgh, UK
Sept 2000-Mar 2001 Structural Consultant, Halsall Associates and Visiting Professor, Civil Engineering, University of Toronto, Toronto, Ontario
Jan 1993-Present Selected Consulting Activities: Bombardier Transportation, FRP Strengthening: Parking Garage, Toronto; Highway Overpass, Winnipeg, (Halsall Associates, Toronto; Vector Construction, Winnipeg; Manitoba Department of Transportation and Government Services.); Bridge Dynamics (CN Rail, Montreal; Stantec, Windsor); Developed computer program for design of transmission and telephone poles (Power-Lite Industries).
July 1997-June 2002 Associate Professor, Civil Engineering, Queen's University, Kingston, Ontario
Jan 1993-June1997 Assistant Professor, Queen’s National Scholar, Civil Engineering, Queen's University, Kingston, Ontario
Jan 1991-Dec 1992 NSERC Postdoctoral Fellow, Civil Engineering, Queen's University, Kingston, Ontario
Summers 1986, 87 NSERC Summer Research Student, Civil Engineering, Queen's University, Kingston, Ontario
Summer 1985 Site Engineer, Vanbots Construction Corporation, Toronto, OntarioProject: Construction of an Electrical Power Station for General Motors

 

Indigenous Leadership:

  • Co-Chair, Queen’s Truth and Reconciliation Commission Task Force (2016-17): 28 member task force; 18 consultation sessions; final report with 25 key recommendations. Along with Principal Woolf, met with Ontario Deputy Premier and Minister of Indigenous Relations.

  • Co-Chair, Queen’s University Aboriginal Council (2004-2010, Member 2012-13; 2018): Increased funding from province $390k to $680k/yr. Oversight of Aboriginal programs and budget university wide.

  • Member, Aboriginal Access to Engineering Circle of Advisors, Queen’s University Faculty of Applied Science, and Engineering (2010-Present).

  • Community Volunteer Board Chair, First Nations Technical Institute (FNTI), Tyendinaga (2004-2005) (member 2002-06) Oversaw restructuring of the institution during significant funding crisis, including the creation of a new Academic Dean’s position. Successfully lobbied political partners to restore funding and prevent closure.

Coming soon!

Refereed Journal Papers


  1. Yusuf*, M.; Sarhat, S.; Hajiloo, H.; Green, M.F. 2022, “Bond Strength between Steel Reinforcement and RCA Concrete During and After Exposure to Elevated Temperatures.” Construction and Building Materials, 345, 128362.

  2. Demewoz*, M.; Genikomsou, A.; Green, M.F. 2021, “Compressive and cyclic flexural response of double- hooked-end steel fibre reinforced concrete.” Frontiers of Structural and Civil Engineering (FSCE).

  3. Wootton*, N.; Fam, A.; Green, M.F.; Jawdhari, A.R.; Sarhat, S. 2021, “Field Testing and Dynamic Response of Full-Scale GFRP-Reinforced Concrete Guideway under Monorail Train.” ASCE Journal of Bridge Engineering.

  4. Mousavi*, S.; Hajiloo, H.; Green, M.F. 2021, “Bond performance of GFRP reinforcing bars under uniform or gradient temperature distributions.” ASCE Journal of Composites for Construction.

  5. Pliya, P.; Hajiloo, H.; Romagnosi, S.; Cree, D.; Sarhat*, S.; Green, M.F. 2021, “The compressive behaviour of natural and recycled aggregate concrete during and after exposure to elevated temperatures.” Journal of Building Engineering, 38, 102214

  6. Demir*, U.; Goksu, C.; Unal, G.; Green, M.F.; Ilki, A. 2020, “Effect of Fire Damage on Seismic Behavior of Cast-in-Place Reinforced Concrete Columns.” ASCE Journal of Structural Engineering, 146(11), 04020232.

  7. Demir*, U.; Green, M.F.; Ilki, A. 2020, “Postfire seismic performance of reinforced precast concrete columns.” PCI Journal, 65(6): 62-80.

  8. Pliya, P.; Cree, D.; Hajiloo*, H.; Beaucour, A.-L.; Green, M.F., Noumowé, A. 2019, “High strength concrete containing recycled coarse aggregates subjected to elevated temperature.” Fire Technology, 1-18 (Online 19 Feb).

  9. Hajiloo*, H.; Green, M.F. 2019, “GFRP Reinforced Concrete Slabs in Fire: Finite Element Modelling.” Engineering Structures. 183: 1109-1120.

  10. Hajiloo*, H.; Green, M.F.; Noël* M.; Bénichou N.; Sultan M. 2019, “GFRP Reinforced Concrete Slabs: Fire Resistance and Efficiency.” ASCE Journal of Composites for Construction, 23(2).

  11. Hajiloo* H.; Green, M.F. 2018, “Post-fire residual properties of GFRP reinforced concrete slabs: Holistic investigation.” Composite Structures. 201: 398-413.

  12. Hajiloo* H.; Green, M.F.; Gales* J. 2018, “Mechanical Properties of GFRP Reinforcing Bars at High Temperatures.” Construction and Building Materials. 162: 142-154.

  13. Mirzazadeh*, M. M.; Green, M.F. 2018, “Fiber Optic Sensors and Digital Image Correlation for Measuring Deformations in Reinforced Concrete Beams.” ASCE Journal of Bridge Engineering. 23(3).

  14. Hajiloo* H.; Green, M.F. 2018, “Bond Strength of GFRP Reinforcing Bars at High Temperatures with Implications for Performance in Fire.” ASCE Journal of Composites for Construction, 22(6).

  15. Hajiloo* H.; Green, M.F.; Noël* M.; Bénichou N.; Sultan M. 2017, “Fire Tests on Full-Scale FRP Reinforced Concrete Slabs. Composite Structures. 179: 705-719.

  16. Mirzazadeh*, M. M.; & Green, M.F. 2017, “Non-linear Finite Element Analysis of Reinforced Concrete Beams with Temperature Differentials.” Engineering Structures. 152(Oct).

  17. Tomlinson* D.; Moradi, F.; Hajiloo, H.; Ghods, P.; Alizadeh, A.; & Green, M.F. 2017, “Early Age Electrical Resistivity Behaviour of Various Concrete Mixes Subject to Low Temperature Cycling.” Cement and Concrete Composites. 83: 323-334.

  18. Shier*, Greg, W. R..; & Green, M.F. 2017, “Performance of Post-cured CFRP Strengthened Reinforced Concrete Beams at Elevated Temperatures.” ASCE Journal of Composites for Construction. 21(4).

  19. Pei*, X.; Noël*, M.; Green, M.F.; Fam, A.; & Shier*, G. 2017, “Corrosion Resistance of Steel Reinforcement with Cementitious Coatings.” Surface and Coatings Technology, 315: 188-195.

  20. Cree, D.; Pliya, P.; Green, M.F.; & Noumowe, A. 2017, “Thermal behaviour of unstressed and stressed high strength concrete containing polypropylene fibers at elevated temperature.” Journal of Structural Fire Engineering, https://doi.org/10.1108/JSFE-07-2016-0014.

  21. Mirzazadeh*, M. M.; Noël*, M.; & Green, M.F. 2016, “Effects of low temperature on the static behaviour of reinforced concrete beams with temperature differentials.” Construction and Building Materials, 112, 191–201.

  22. Gales*, J.; Parker, T.; Cree, D.; & Green, M.F. 2016, “Fire performance of sustainable recycled concrete aggregates: Mechanical properties at elevated temperatures and current research needs.” Fire Technology, 52(3): 817–845.

  23. Laneyrie, C.; Beaucour, A-L.; Green, M.F.; Hebert, R.; Noumowe, A. 2016, “Influence of recycled coarse aggregates on normal and high performance concrete subjected to elevated temperatures.” Construction and Building Materials, 111: 368–378.

  24. Pei*, X.; Noël, M.; Fam, A.; & Green, M.F.; 2015, “Development length of steel reinforcement with corrosion protection cementitious coatings”. Cement and Concrete Composites, 60: 34–43.

  25. Mirzazadeh*, M. M.; Noël*, M.; & Green, M.F. 2016, “Fatigue Behavior of Reinforced Concrete Beams with Temperature Differentials at Room and Low Temperature.” ASCE Journal of Structural Engineering. 143(7).

  26. DeRosa, D.; Hoult, N.A.; Green, M.F. 2015 “Effects of Varying Temperature on the Performance of Reinforced Concrete,” Materials and Structures, 48(4): 1109-1123.

  27. Cree, D.; Gamaniouk, T.; Li-Loong, M.; Green, M.F. Tensile and lap-splice shear strength properties of CFRP composites at high temperatures. ASCE Journal of Composites for Construction, 19(2): 04014043.

  28. Adelzadeh, M.; Hajiloo, H.; Green, M.F. 2014, “Numerical Study of FRP Reinforced Concrete Slabs at Elevated Temperature,” polymers, 6(2): 408-422.

  29. Green, M.F.; Hollingshead, K.; and Bénichou, N. 2014, “Performance in Fire of Fibre Reinforced Polymer Strengthened Concrete Beams and Columns: Recent Research and Implications for Design,” Journal of Structural Fire Engineering, 5(4): 353-366.

  30. Bénichou, N.; Mostafaei, H.; Green, M.F.; Hollingshead, K. 2013, “The impact of fire on seismic resistance of fibre reinforced polymer strengthened concrete structural systems,” Canadian Journal of Civil Engineering, 2013, 40(11): 1044-1049, 10.1139/cjce-2012-0521

  31. Rameshni, R.; Arcovio, S.; Green, M.F.; MacDougall, C. 2013 “Experimental and numerical study of adhesively bonded glass fibre-reinforced polymer – to-steel double-shear lap splices,” Canadian Journal of Civil Engineering, 40(11): 1140-1149, 10.1139/cjce-2012-0508

  32. Cree, D.; Green, M.F.; Noumowé, A. 2013 “Residual strength of concrete containing recycled materials after exposure to fire: a review,” Construction and Building Materials, 45(Aug): 208-223.

  33. Burke, P.J.; Bisby, L.A.; Green, M.F. 2013 “Effects of elevated temperature on NSM and externally bonded FRP strengthening systems for concrete,” Cement and Concrete Composites 35(1): 190-199.

  34. Saiedi, R.; Green, M.F.; & Fam, A.Z. 2013, “Behavior of CFRP-Prestressed Concrete Beams under Sustained Load at Low Temperature.” ASCE Journal of Cold Regions Engineering 27(1): 1-15

  35. Adelzadeh, M.; Green, M.F.; and Bénichou, N. 2012, “Behaviour in fire of FRP strengthened T-beams and slabs.” Structures and Buildings, Proceedings of the Institution of Civil Engineers, 165(7): 361-371.

  36. Cree, D.; Chowdhury, E.U.; Green, M.F.; Bisby, L.; and Bénichou, N. 2012 “Performance in fire of FRP-strengthened and reinforced concrete columns.” Fire Safety Journal 54: 86‑95.

  37. Chowdhury, E.U.; Bisby, L.A.; Green, M.F.; Benichou, N.; and Kodur, V.K.R., 2012, “Heat Transfer and Structural Response Modelling of FRP Confined Rectangular Concrete Columns in Fire.” Construction and Building Materials. 32: 77-89.

  38. Kim, Y.J.; MacDougall, C.; Campbell, T.I.; and Green, M.F., 2012, “Computational Modeling of Fatigue Performance of an Integrated Crosstie System for Advanced Rapid Transit,” ASCE Journal of Performance of Constructed Facilities, 26(3): 326-334.

  39. Maluk, C.; Bisby, L.A.; Terrasi, G.; and Green, M.F. 2011,“Bond strength degradation for CFRP and steel reinforcing bars in concrete at elevated temperature,” American Concrete Institute (ACI) Special Publication on Recent Advances in the Fire Design of Concrete Structures (SP-279-2), 1-36.

  40. Kim, Y.J.; Wight, R.G.; and Green, M.F., 2011, “Inspection techniques for a damaged prestressed concrete girder bridge: a case study,” American Concrete Institute (ACI) Special Publication on Recent Advances in Bridge Maintenance and Repair (SP-277), 129-142.

  41. Saiedi, R.; Fam, A.; and Green, M.F. “Behavior of CFRP-Prestressed Concrete Beams under High-Cycle Fatigue at Low Temperature,” ASCE Journal of Composites for Construction. 15(4):482-489.

  42. MacDougall, C.; Green, M.F.; and Amato, L. 2011. “CFRP Tendons for the Repair of Post-Tensioned, Unbonded Concrete Buildings,” ASCE Journal of Performance of Constructed Facilities. 25(3): 149-157. (One of nine nominated for best paper of the year).

  43. Chowdhury, E.U.; Eedson, R.; Bisby, L.A.; Green, M.F. and Benichou, N., 2011, “Mechanical Characterization of Fibre Reinforced Polymers Materials at High Temperature” Fire Technology. 47(4): 1063-1080.

  44. El-Hacha, R.; Green, M.F. and Wight, R.G., 2010, “Effect of Severe Environmental Exposures on CFRP Wrapped Concrete Columns,” ASCE Journal of Composites for Construction. 14(1): 83-93.

  45. Kim, Y.J.; Green, M.F.; and Wight, R.G. “Design and Site Application of Prestressed Carbon Fiber Reinforced Polymer (CFRP) Sheets for Strengthening Concrete Structures,” ASCE Journal of Performance of Constructed Facilities, 24(6): 495-496

  46. Kim, Y.J.; Fam, A.; and Green, M.F. “Flexural strengthening of RC beams with steel reinforced polymer sheets: analytical and computational investigations,” Journal of Reinforced Plastics and Composites, American Society for Composites (ASC), 29(14): 2141-2155.

  47. Kim, Y.J.; Green, M.F.; and Wight, R.G. 2010. “Effect of prestress levels in prestressed concrete beams strengthened with prestressed CFRP sheets: numerical parametric study,” PCI Journal, 55(2): 96-108.

  48. Kim, Y.J.; Fam, A.; and M.F. 2010. “Application of SRP composite sheets for retrofitting reinforced concrete beams: cracking and tension stiffening,” Journal of Reinforced Plastics and Composites, American Society for Composites (ASC), 29(17): 2647-2662.

  49. Kim, Y.J.; Longworth, J.M.; Wight, R.G.; and M.F., 2010, “Punching Shear of Two-way Slabs Retrofitted with Prestressed or Non-prestressed CFRP Sheets,” Journal of Reinforced Plastics and Composites. 29(8): 1206-1218

  50. Kodur, V.; Bisby, L.A.; Green, M.F; and Fyfe, E., 2010, “A review of recent research studying the fire performance of FRP strengthening systems for concrete,” International Journal of 3R’s: Repair, Restoration, and Renewal of Built Environment, 1(2): 53-62.

  51. Kim, Y.J., Green, M.F., and Wight, R.G., 2010, “Bond and short-term prestress losses of prestressed composites for strengthening PC beams with integrated anchorage,” Journal of Reinforced Plastics and Composites. 29(8): 1206-1218

  52. Kim, Y.J. and Green, M.F. “Strengthening Prestressed Concrete with Prestressed CFRP” Proc. of the ICE: Eng.& Comp. Mech. 162(EM3): 167–170. Invited.

  53. Kim, Y.J., Campbell, T.I., MacDougall, C., and Green, M.F., 2009, “Mechanical behaviour of a hyperelastic pad for an integrated cross-tie system,” Can J. of Civil Eng., 36(1): 84-95.

  54. Obrien, E.; Rowley.; Gonzalez, A.; & Green, F. 2009. “A Regularised Solution to the Bridge Weigh in Motion Equations,” Int. J. of Heavy Vehicle Systems., 16(3): 310-327.

  55. Kim, Y.J.; Longworth, J.M.; Wight, R.G.; and Green, M.F., 2008, “Flexure of Two-Way Slabs Strengthened with Prestressed or Non-prestressed CFRP Sheets,” ASCE Journal of Composites for Construction, 12(4): 366-374.

  56. Kim, Y.J.; Shi, C.; and Green, M.F., 2008, “Ductility and Cracking Behavior of Prestressed Concrete Beams Strengthened with Prestressed CFRP Sheets,” ASCE Journal of Composites for Construction. Vol. 12, No. 3, June, pp. 274-283.

  57. MacDougall, C., Fitzwilliam, J., and Green, M.F., 2008, “Floor Beam Testing Laboratory for Teaching Beam Bending Mechanics,” International Journal for Engineering Education. 24, No. 3, pp. 529-539.

  58. Kim, Y.J., Green, M.F., and Wight, R.G., 2008, Live load distributions on an Impact-damaged Prestressed Concrete Girder Bridge strengthened with Prestressed CFRP Sheets, ASCE Journal of Bridge Engineering, 13, No. 2, pp. 202-210.

  59. Fam, A.Z, Kong, A. and Green, M.F. “Effects of Freezing and Thawing Cycles and Sustained Loading on Compressive Strength of Precast Composite Piles", PCI Journal, Vol. 53, No. 1, pp. 109-120.

  60. Williams, B.K., Kodur, V.K.R., Green, M.F., and Bisby, L.A. 2008. “Fire endurance of fiber-reinforced polymer strengthened concrete T-beams,” ACI Structural Journal, Vol. 105, No. 1, Jan.-Feb., pp. 60-67.

  61. Kim, Y.J.; Green, M.F.; and Fallis, G.J., 2008, “Repair of Bridge Girder Damaged by Impact Loads with Prestressed CFRP Sheets,” Journal of Bridge Engineering, (ASCE), Vol. 13, No. 1, Jan-Feb, pp. 15-23.

  62. Kim, Y.J.; Wight, R.G.; and Green, M.F., 2008, “Flexural Strengthening of RC Beams with Prestressed CFRP Sheets: Development of Nonmetallic Anchor Systems,” ASCE Journal of Composites for Construction, 12, No. 1, Jan.-Feb., pp. 35-43.

  63. Kim, Y.J.; Wight, R.G.; and Green, M.F., 2008, “Flexural Strengthening of RC Beams with Prestressed CFRP Sheets: Using Nonmetallic Anchor Systems,” ASCE Journal of Composites for Construction, 12, No. 1, Jan.-Feb., pp. 44-52.

  64. Chowdhury, E.U., Bisby, L.A., Green, M.F., and Kodur, V.K. 2008. “Residual Behavior of Fire-Exposed Reinforced Concrete Beams Prestrengthened in Flexure with Fiber-Reinforced Polymer Sheets,” ASCE Journal of Composites for Construction, 12, No. 1, Jan-Feb pp61-68.

  65. Debaiky, A.S., Green, M.F., and Hope, B.B. 2007, “Modeling of Corroded FRP-Wrapped Reinforced Concrete Columns in Axial Compression,” ASCE Journal of Composites for Construction, 11, No. 6, Nov-Dec, pp. 556-564.

  66. Chowdhury, E.U., Bisby, L.A., Green, M.F. and Kodur, V.K.R., 2007, “Investigation of insulated FRP-wrapped reinforced concrete columns in fire,” Fire Safety Journal, Vol 42, No. 6-7, pp. 452‑460.

  67. Kim, Y.J.; Shi, C.; Bizindavyi, L; and Green, M.F., 2007, Applying Prestressed CFRP Sheets to Restore Prestress Losses in Prestressed Concrete Beams, American Concrete Institute (ACI) Special Publication on Case Histories and Use of FRP for Prestressing Applications (SP-245), pp.105-122

  68. Kim, Y.J.; Green, M.F.; and Wight, R.G., 2007, “Flexural behaviour of reinforced or prestressed concrete beams including strengthening with prestressed carbon fibre reinforced polymer sheets: application of a fracture mechanics approach,” Canadian Journal of Civil Engineering, 34, No. 5, 664-677.

  69. Kodur, V.K.R., Bisby, L.A., and Green, M.F. “Guidance for the Design of FRP-Strengthened Concrete Members Exposed to Fire,” Journal of Fire Protection Engineering, Vol. 17, No. 1, Feb 5-26.

  70. Green, M.F. “FRP Repair of Concrete Structures: Performance in Cold Regions,” International Journal of Materials and Product Technology, Vol. 28, No. 1/2, 160-177. Invited.

  71. Kodur, V.K.R., Bisby, L.A., and Green, M.F. 2006. “FRP Retrofitted Concrete under Fire Conditions,” Concrete International, Vol. 28, No. 12, 37-44.

  72. Debaiky, A.S., Green, M.F., and Hope, B.B. 2006. “Long-Term Monitoring of CFRP Wrapped Reinforced Concrete Columns under Severe Environment,” ACI Structural Journal. Nov.-Dec., Vol. 103, No. 6, 226-234.

  73. Kim, Y.J.; Green, M.F.; Fallis, G.J.; Wight, G.R.; and Eden, R., 2006, “Damaged Bridge Girder Strengthening,” Concrete International, Nov., Vol. 28, No. 11, 61-66. Translated into Korean and published in KSMI (Korea Institute of Structural Maintenance & Inspection) Magazine.

  74. Green, M.F., Bisby, L.A., Fam, A.Z., and Kodur, V.K.R. 2006. “FRP Confined Concrete Columns: Behaviour under Extreme Conditions,” Cement and Concrete Composites, Vol. 28, No. 10, Nov., 928-937. Invited.

  75. Kodur, V.K.R., Bisby, L.A., and Green, M.F. 2006 “Experimental evaluation of the fire behaviour of insulated fibre-reinforced-polymer-strengthened reinforced concrete columns,” Fire Safety Journal, Volume 41, Issue 7, October, 547-557.

  76. Braimah, A., Green, M.F., and Campbell, T.I. 2006. “Fatigue Behaviour of Concrete Beams Post-Tensioned with Unbonded Carbon Fiber Reinforced Polymer Tendons,” Canadian Journal of Civil Engineering, 33, No. 9, 1140-1155.

  77. Williams, B.K., Bisby, L.A., Kodur, V.K.R., Green, M.F., & Chowdhury, E. 2006. “Fire insulation schemes for FRP-strengthened concrete slabs”, Composites: Part A, 37 (2006), 1151-1160.

  78. MacDougall, C., Green, M.F., and Shillinglaw, S. 2006. “Fatigue Damage of Steel Bridges Due to Dynamic Vehicle Loads,” ASCE Journal of Bridge Engineering. May-June, Vol. 11, No. 3, 320‑328.

  79. Kodur, V.K.R., Bisby, L.A., Green, M.F., and Chowdhury, E. 2005. “Evaluating the Fire Endurance of FRP-Strengthened Square Reinforced Concrete Columns,” ACI Special Publication SP-230, 1253-

  80. Kong, A., Fam, A.Z., and Green, M.F. “Freeze-Thaw Behavior of FRP-Confined Concrete under Sustained Load,ACI Special Publication SP-230, 705-722.

  81. Bisby, L.A., Green, M.F., & Kodur, V.K.R. 2005. “Response to fire of concrete structures that incorporate FRP,” Progress in Structural Engineering and Materials, July-Sept.,Vol. 7, No. 3, 136-149.

  82. Bisby, L.A., Green, M.F., and Kodur, V.K.R. 2005. “Fire Endurance of Fiber Reinforced Polymer Confined Concrete”, ACI Structural Journal. Nov-Dec., Vol. 102, No. 6, 883-891.

  83. Bisby, L.A., Dent, A.J.S., and Green, M.F. 2005. “A Comparison of Models for Fiber Reinforced Polymer Confined Concrete,” ACI Structural Journal, Vol. 102, No. 1, 62-72.

  84. Bisby, L.A., Green, M.F., and Kodur, V.K.R. 2005. “Modeling the Behavior of Fiber Reinforced Polymer Confined Concrete Columns Exposed to Fire”, ASCE Journal of Composites for Construction, Vol 9, No. 1, 15-24.

  85. Bisby, L.A., Green, M.F., and Kodur, V.K.R., 2004. “Numerical Parametric Studies on the Fire Endurance of FRP-Confined Concrete Columns,” Canadian Journal of Civil Engineering, Vol. 31, No. 6, 1090-1100.

  86. Kodur, V.K.R., Green, M.F., Bisby, L.A., & Williams, B.K. 2004. “Evaluating the fire performance of FRP-strengthened structures”, Concrete Engineering International, Vol 8, No. 2, 48-50. Invited.

  87. El-Hacha, R., Wight, R.G., and Green, M.F. “Flexural Behaviour of Concrete Beams Strengthened with Prestressed CFRP Sheets subjected to Sustained Loading and Low Temperature,” Canadian Journal of Civil Engineering, April, Vol. 31, No. 2, 239-252.

  88. El-Hacha, R., Wight, R.G., and Green, M.F., 2004. “Prestressed Carbon Fiber Reinforced Polymer Sheets for Strengthening Concrete Beams at Room and Low Temperatures,” ASCE Journal of Composites for Construction, Jan.-Feb., Vol. 8, No. 1, 3-13.

  89. Green, M.F., Dent, A., and Bisby, L.A. 2003. “Effect of Freeze-Thaw Cycling on the Behaviour of Reinforced Concrete Beams Strengthened in Flexure with FRP Sheets,” Canadian Journal of Civil Engineering, December, Vol. 30, No. 6, 1081-1088.

  90. El-Hacha, R., Wight, R.G., and Green, M.F. “Innovative System for Prestressing Fiber-Reinforced Polymer Sheets,” ACI Structural Journal. Vol. 100, No. 3, May-June, pp. 305-313.

  91. Braimah, A., Green, M.F., and Soudki, K.A. 2003. “Long-Term Behavior of CFRP Prestressed Concrete Beams.” PCI Journal, March-April, Vol. 48, No. 2, pp. 98-107.

  92. Green, M.F., Debaiky, A.S., and Hope, B.B. 2002. “FRP Corrosion Rehabilitation of Reinforced Concrete Columns – Canadian Research,” SAMPE Journal, Vol. 38, No. 5, September/October, pp. 36-40.

  93. Bisby, L.A., and Green, M.F. “Resistance to Freezing and Thawing of Fiber-Reinforced Polymer-Concrete Bond.” ACI Structural Journal. Vol. 99, No.2, March-April, pp. 215-223.

  94. Debaiky, A., Green, M.F., and Hope, B.B. 2002. “CFRP Wraps for Corrosion Control and Rehabilitation of Reinforced Concrete Columns.” ACI Materials Journal.  99, No. 2, March-April, pp. 129-137.  

  95. Wight, R.G., Green, M.F., and Erki, M.A. 2001. “Strengthening Reinforced Concrete Beams with Prestressed CFRP Sheets.” ASCE Journal of Composites for Construction, Vol. 5, No. 4, pp. 214-220.

  96. El-hacha, R., Wight, R.G., and Green, M.F. “Prestressed Fibre-Reinforced Polymer Laminates for Strengthening Structures.” Progress in Structural Engineering and Materials, Vol. 3, No. 2, pp. 111‑121.

  97. Green, M.F., Bisby, L., Beaudoin, Y, and Labossière, P. 2000. “Effect of Freeze-Thaw Cycles on the Bond Durability between Fibre Reinforced Polymer Plate Reinforcement and Concrete.” Canadian Journal of Civil Engineering. 27, No. 5, pp. 949-959.

  98. Marshe, S., and Green, M.F. “Punching Behaviour of Composite Bridge Decks Transversely Prestressed with Carbon Fibre Reinforced Plastic Tendons.” Canadian Journal of Civil Engineering. Vol. 26, No. 5, pp. 618-630.

  99. Allouche, E.N., Campbell, T.I., Green, M.F., and Soudki, K.A. 1999. “Tendon Stress in Continuous Unbonded Prestressed Concrete Members - Part 2: Parametric Study.” PCI Journal, Vol. 44, No. 1, pp. 60-73.

  100. Allouche, E.N., Campbell, T.I., Green, M.F., and Soudki, K.A. 1998. “Tendon Stress in Continuous Unbonded Prestressed Concrete Members - Part 1: Review of Literature.” PCI Journal, Vol 43, No. 6, pp. 86-97.

  101. Campbell, T.I., Green, M.F., Koppens, N.C., and Agarwal, A.C. 1998. “Stress Distribution at the PTFE Interface in a Cylindrical Bearing.” ASCE Journal of Bridge Engineering, 3, No. 4, Nov., pp. 186‑193.

  102. Braimah, A., Green, M.F., and Soudki, K.A. 1998. “Polypropylene FRC Bridge Deck Slabs Transversely Prestressed with CFRP Tendons.” ASCE Journal of Composites for Construction, Vol. 2, No. 4, Nov., pp. 149-157.

  103. Campbell, T.I., Green, M.F., Koppens, N.C., and Agarwal, A.C. “Pressure Distribution in Sliding Interface of Spherical Bridge Bearing.” Transportation Research Record, No. 1594, pp. 154‑162.

  104. Soudki, K.A., Green, M.F., and Clapp, F.D. 1997. “Transfer Length of Carbon Fibre Rods in Precast Pretensioned Concrete” PCI Journal, Vol. 42, No. 5, pp. 78-87.

  105. Soudki, K.A., and Green, M.F. “Freeze-Thaw Response CFRP Wrapped Concrete.” Concrete International, Vol. 19, No. 8, Aug., pp. 64-67.

  106. Green, M.F., and Cebon, D. 1997. “Dynamic Interaction Between Heavy Vehicles and Highway Bridges.” Computers and Structures, Vol. 62, No. 2, pp. 253-264.

  107. Green, M.F. “Assessment of Bridge-Friendliness of Heavy Vehicle Suspensions.” Special issue of the International Journal of Vehicle Design on Vehicle-Road and Vehicle-Bridge Interaction, Vol. 3, No. 1-4, pp. 165‑179.

  108. Campbell, T.I., Green, M.F., Koppens, N.C., and Agarwal, A.C. 1996. “Design Considerations for Spherical Bridge Bearings under Horizontal Loads.”  in The Fourth World Congress on Joint Sealing and Bearing Systems for Concrete Structures. American Concrete Institute Special Publication 164.  233‑252.

  109. Bryan, P.E., and Green, M.F. “Low Temperature Behaviour of CFRP Prestressed Concrete Beams.” Canadian Journal of Civil Engineering, Vol. 23, No. 2, Apr., pp. 464-470.

  110. Fatemi, M.J., Green, M.F., Campbell, T.I., and Moucessian, A.   “Dynamic Analysis of a Resilient Cross-Tie Track for a Transit Guideway.”  Journal of Transportation Engineering, ASCE, Vol 122, No. 2, Mar./Apr., pp. 173-180.

  111. Green, M.F., Cebon, D., and Cole, D.J., 1995. “Effects of Vehicle Suspension Design on Dynamics of Highway Bridges.” Journal of Structural Engineering, ASCE, Vol. 121, No. 2, Feb., pp. 272‑282.

  112. Green, M.F., and Cebon, D., 1994.  “Dynamic Response of Highway Bridges to Heavy Vehicle Loads. Theory and Experimental Validation.” Journal of Sound and Vibration, Vol. 170, No. 1, Feb., pp. 51-78.

  113. Green, M.F., 1993.  Discussion to paper entitled “Bridge dynamics and dynamic amplification factors ‑ a review of analytical and experimental findings.” by Paultre, P., Chaallal, O., and Proulx, J.  Canadian Journal of Civil Engineering, Vol. 20, No. 5, Oct., pp. 876-877.

John Kabanda

John Kabanda (Postdoctoral Fellow)

"Fire Engineering"

Abdul Watfa (PhD Candidate)

"Post-Tensioned Concrete Filled FRP Tubes (PT-CFFTs) for Wind Turbine Towers with Material Characterization"

Md. Yusuf (PhD Candidate)

"Behaviour in fire of FRP reinforced concrete" 

Demewoz Menna

Demewoz Menna (PhD Candidate)

"Applications of Superelastic NiTi Alloys in Reinforced Concrete and Passive Ankle Foot Orthoses."

Branna MacDougall

Branna MacDougall (PhD Candidate)

"Fire performance of Ultra-High Performance Concrete"

Dawit Sheferaw (PhD Candidate)

"Design and evaluation of  low-cost, variable damper for prosthetic knee and seismic applications"

Shannen Krost

Shannen Krost (MASc Candidate)

"Fire resistance of structures"