Publications

Refereed Journal Papers
*=> denotes grad/student co-author
**=>postdoctoral researcher

Safari, S.*, DuBose, T.,* Head, M., Shenton III, H., Tatar, J., Chajes, M., Karam, J. , and Hastings, J. (2023). “Diagnostic Load Testing and Assessment of a Corroded Corrugated Metal Pipe Culvert Before Rehabilitation,” Structure and Infrastructure Engineering, 1-10.

Tatar, J., Viniarski, C.*, Harries, K.A., and Head, M. (2023). “Effect of U-Wrap Anchors on Flexural Behavior of Reinforced Concrete Beams Flexurally Strengthened with Externally Bonded CFRP,” ASCE Journal of Composites for Construction, 27(1), 04022099.

*Ghyabi, M., *Timber, L., *Jahangiri, G., Head, M., Lattanzi, D., Shenton, H., and Chajes, M. (2023). “Vision-Based Measurements to Quantify BridgeDeformations,” Journal of Bridge Engineering, 28(1), 05022010.

**Oats, R., Dai, Q., and Head, M. (2022). “Digital Image Correlation Advances in Structural Evaluation Applications: A Review,” Special Topics on Recent Advances in Structural Health Monitoring Techniques and Applications in ASCE Practice Periodical of Structural Design and Construction, 27(4), https://doi.org/10.1061/(ASCE)SC.1943-5576.0000725. (Guest editors: Mahmoud Bayat, Ph.D., Paul Ziehl, Ph.D., Monique H. Head, Ph.D., and Amir H. Alavi, Ph.D.).

*Obayes, S., Timber, L., Head, M., and Sparks, E. (2022). “Evaluation of Brace Root Parameters and Its Effect on the Stiffness of Maize,” in silico Plants, Volume 4, Issue 1, 2022, https://doi.org/10.1093/insilicoplants/diac008.

Head, M. and Timber, L.* (2022). “Live Load Distribution of Slab-on-Girder Bridge Using Vision-Based Measurements,” American Concrete Institute (ACI) Special Publication Live Load Distribution on Concrete Bridges: Design, Evaluation, Construction, Innovation, 352, 68-77.

Bayat, M., Head, M., Cveticanin, L., and Ziehl, P. (2022). “Nonlinear Analysis of Two-Degree of Freedom System with Nonlinear Springs,” Mechanical Systems and Signal Processing (Elsevier), 171(3): 108891. DOI: 10.1016/j.ymssp.2022.108891.

*Zebarjad, L., Yahyai, M., Head, M., and Shokouhian, M. (2020). “Toward Optimizing Dynamic Characteristics of non-conventional TMDs in multi degree of freedom systems,” Iranian Journal of Science and Technology Transactions of Civil Engineering, doi:10.1007/s40996-019-00338-z.

Yahyai, M., *Zebarjad, L., Head, M., and Shokouhian, M. (2019). “Optimum Parameters for Large Mass Ratio TMDs Using Frequency Response Function,” Journal of Earthquake Engineering, 24(1): 1-20.

*Chinaka, E., Shokouhian, M., Head, M., and Efe, S. (2019). “An Experimental Investigation of Bond Strength of AFRP Bars with Self-Consolidating Concrete,” Civil Engineering Design, 1(5-6): 148-160.

**Shokouhian, M., Head, M., Seo, J., *Schaffer, W., and *Adams, G. (2019). “Hydrodynamic Response of a Semi-submersible Platform to Support a Wind Turbine,” Elsevier, Journal of Marine Engineering & Technology, 1-16.

Seo, J., *Schaffer, W., Head, M., **Shokouhian, M., and Choi, E. (2018). “Integrated FEM and CFD Simulation for Offshore Wind Turbine Structural Response,” International Journal of Steel Structures, 1-13.

*Efe, S., **Shokouhian, M., Head, M., and *Chinaka, E. (2017). “Numerical Study on the Cyclic Response of AFRP Reinforced Column with Externally Unbonded Energy Dissipaters,” Structure and Infrastructure Engineering, 14(2), 2018: 218-231.

**Shokouhian, M., Shi, Y., Head, M. (2016). “Interactive Buckling Failure Modes of Hybrid Steel Flexural Members,” Elsevier, Engineering Structures, 125:153-166, https://www.sciencedirect.com/journal/engineering-structures/vol/125.

*Pirayeh Gar, S., Mander, J., Head, M., and Hurlebaus, S. (2014). “FRP Slab Capacity Using Yield Line Theory,” J. Compos. Constr., 18(6).

*Pirayeh Gar, S., Head, M., Hurlebaus, S., and Mander, J. (2014). “Experimental Performance of AFRP Concrete Bridge Deck Slab with Full-Depth Precast Prestressed Panels,” ASCE Journal of Bridge Engineering, 19(4), http://ascelibrary.org/doi/abs/10.1061/(ASCE)BE.1943-5592.0000559.

*Pirayeh Gar, S., Head, M., and Hurlebaus, S. (2013). “Computational Modeling of the Flexural Performance of an AFRP Prestressed Girder with a Composite Bridge Deck,” ACI Structural Journal, 110(6), http://www.concrete.org/PUBS/JOURNALS/SJHOME.ASP.

*Pirayeh Gar, S., Head, M., Hurlebaus, S., and Mander, J. (2013). “Comparative Experimental Performance of Bridge Deck Slabs with AFRP and Steel Precast Panels,” ASCE Journal of Composites for Construction, 17(6), http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000380.

*Bisadi, V., Gardoni, P., and Head, M. (2013). “Decision Analysis for Elevating Bridge Decks with Steel Pedestals,” Structure and Infrastructure Engineering, 10(8), 1059-1067, http://www.tandfonline.com/doi/abs/10.1080/15732479.2013.788523#.Ui5FHNLkvNo.

*Bisadi, V., Gardoni, P., and Head, M. (2013). “Probabilistic Demand Models and Fragility Estimates for Bridges Elevated with Steel Pedestals,” ASCE Journal of Structural Engineering, 139(9): 1515-1528, September 2013, http://dx.doi.org/10.1061/(ASCE)ST.1943-541X.0000741.

*Pirayeh Gar, S., Head, M., and Hurlebaus, S. (2012). “Tension Stiffening in Prestressed Concrete Beams Using Moment-Curvature Relationship,” ASCE Journal of Structural Engineering (Technical Note), 138(8): 1075-1078, August 2012, http://dx.doi.org/10.1061/(ASCE)ST.1943-541X.0000534.

*Bisadi, V., Head, M., and Cline, D. (2011). “Seismic Effects of Elevating Bridges with Steel Pedestals in the Southeastern United States,” Engineering Structures, 33(12): 3279-3289, December 2011, http://www.sciencedirect.com/science/article/pii/S0141029611003415.

*Bisadi, V. and Head, M. (2011). “Evaluation of Combination Rules for Orthogonal Seismic Demands in Nonlinear Time History Analysis of Bridges,” ASCE Journal of Bridge Engineering, Special Issue: AASHTO-LRFD Bridge Design and Guide Specifications: Recent, Ongoing, and Future Refinements, 16(6): 711-717, March 2011, http://dx.doi.org/10.1061/(ASCE)BE.1943-5592.0000241.

*Bisadi, V., Gardoni, P., and Head, M. (2011). “Probabilistic Capacity Models and Fragility Estimates for Steel Pedestals Used to Elevate Bridges,” ASCE Journal of Structural Engineering, 137(12): 1583-1592, December 2011.

*Mander, T.J., Mander, J.B., and Head, M. (2010). “Strength Analysis of Precast Bridge Decks with Full-Depth Precast Overhang Panels,” Transportation Research Record: Journal of the Transportation Research Board, No. 2202, Transportation Research Board of the National Academies, Washington, D.C., 2010, pp. 70–76.

*Mander, T., Mander, J., and Hite Head, M.  (2010). “Modified Yield-Line Theory for Full-Depth Precast Concrete Bridge Deck Overhang Panels,” ASCE Journal of Bridge Engineering, 16(1):  12-20, December 2010.

*Mander, T., Mander, J., and Hite Head, M.  (2010). “Compound Shear-Flexural Capacity of Reinforced Concrete Topped Precast Prestressed Bridge Decks,” ASCE Journal of Bridge Engineering, 16(1): 4-11, December 2010.

*Mander, T., *Henley, M. *Scott, R., Hite Head, M., Mander, J., and Trejo, D.  (2010). “Experimental Investigation of Full-Depth Precast Overhang Panels for Concrete Bridge Decks,” ASCE Journal of Bridge Engineering, 15(5):503-510, September/October 2010.

Hite, M., DesRoches, R., and Leon, R. T. (2008).  “Full-scale Tests of Bridge Steel Pedestals,” ASCE Journal of Bridge Engineering, 13(5): 483-491, September/October 2008.

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