1. Mosalam, K.M., “Modeling of the Nonlinear Seismic Behavior of
Gravity Load Designed Frames,” Earthquake
Spectra, Vol. 12, No. 3, 479-492, 1996.
2. Mosalam, K.M. and Paulino, G.H., “Evolutionary Characteristic Length Method for
Smeared Cracking Finite Element Models,” Finite Element in Analysis and Design, Vol. 27, No. 1, 99-108,
1997.
3. Mosalam, K.M., White, R.N., and Gergely,
P., “Static Response of Infilled
Frames Using Quasi-Static Experimentation,” Journal of Structural Engineering, ASCE, Vol. 123, No. 11,
1462-1469, 1997.
4. Mosalam, K.M., Ayala, G., White, R.N.,
and Roth, C., “Seismic Fragility of
LRC Frames With and Without Masonry Infill Walls,” Journal of Earthquake Engineering, Vol.
1, No. 4, 693-720, 1997.
5. Mosalam, K.M., White, R.N., and Ayala,
G., “Response of Infilled Frames
Using Pseudo-Dynamic Experimentation,” Earthquake Engineering and Structural Dynamics, Vol. 27, 589-608,
1998.
6. Tabatabai,
S.M.R. and Mosalam,
K.M., “Computational Platform
for Nonlinear Analysis/Optimal Design of Reinforced Concrete Structures,”
Engineering Computations, Vol. 18,
No. 5, 726-744, 2001.
7. Mosalam, K.M. and Mosallam, A., “Nonlinear Transient Analysis of Reinforced
Concrete Slabs Subjected to Blast Loading and Retrofitted with CFRP Composites,”
Composites Part B: Engineering, Vol.
32, No. 6, 623-636, 2001.
8. Naito, C., Moehle, J., and Mosalam,
K.M., “Evaluation of Bridge
Beam-Column Joints Under Simulated Seismic Loading,” ACI Structural Journal, Vol. 99, No. 1,
62-71, 2002.
9. Mosalam, K.M. and Naito, C., “Seismic
Evaluation of Gravity Load-Designed Column-Grid System,” Journal of Structural Engineering, ASCE,
Vol. 128, No. 2, 160-168, 2002.
10. Gardoni,
P., Der
Kiureghian, A., and Mosalam, K.M., “Probabilistic Capacity Models and Fragility
Estimates for RC Columns Based on Experimental Observations,” Journal of Engineering Mechanics, ASCE,
Vol. 128, No. 10, 1024-1038, 2002.
11. Mosalam, K.M., Naito, C., and Khaykina,
S., “Bidirectional Cyclic
Performance of Reinforced Concrete Bridge Column-Superstructure Subassemblies,”
Earthquake Spectra, Vol. 18, No. 4,
663-687, 2002.
12. Gliniorz,
K.-U., Mosalam,
K.M., and Natterer, J., “Modeling
of Layered Timber Beams and Shell
Frameworks,” Composites Part B: Engineering, Vol. 33,
No. 5, 367-381, 2002.
13. Arici,
Y. and Mosalam,
K.M., “System Identification of
Instrumented Bridge Systems,” Earthquake
Engineering and Structural Dynamics, Vol. 32, No. 7, 999-1020, 2003.
14. Sezen, H., Whittaker, A.S., Elwood, K.J., and Mosalam, K.M., “Performance of Reinforced Concrete Buildings
during the August 17, 1999 Kocaeli, Turkey Earthquake, and Seismic Design and
Construction Practice in Turkey,” Engineering
Structures, Vol. 25, 103-114, 2003.
15. Mosallam, A. and Mosalam,
K.M., “Strengthening of Two-Way
Concrete Slabs With FRP Composite Laminates,” Construction and Building Materials, Vol. 17, No. 1, 31-42, 2003.
16. Mosalam, K.M.,
Mahin, S.A., and Rojansky, M., “Evaluation
of the Seismic Performance and Retrofit of Lightweight Reinforced Concrete
Shear-Walls,” ACI Structural
Journal, Vol. 100, No. 6, 1-11,
2003.
17. Gardoni, P., Mosalam, K.M., and Der Kiureghian, “Probabilistic Seismic Demand Models and
Fragility Estimates for RC Bridges,” Journal of Earthquake Engineering, Vol. 7, No. 1, 79-106, 2003.
18. Lee, T.-H. and Mosalam, K.M., “Probabilistic Fiber Element Modeling of
Reinforced Concrete Structures,” Computers
and Structures , Vol. 82, No. 27,
2285-2299, 2004.
19. Marino, E.M., Nakashima, M., and Mosalam, K.M., “Comparison
of European and Japanese Seismic Design of Steel Building Structures,”
Engineering
Structures, Vol. 27,
No. 6, 827-840, 2005.
20. Arici, Y. and Mosalam,
K.M., “Statistical Significance
of Modal Parameters of Bridge Systems Identified From Strong Motion Data,”
Earthquake Engineering and Structural
Dynamics, Vol. 34, No. 10,
1323-1341, 2005.
21. Arici, Y. and Mosalam,
K.M., “Modal Identification of
Bridge Systems Using State-Space Methods,” Journal of Structural Control and Health Monitoring, Vol. 12, No. 3-4, 381-404, 2005.
22. Lee, T.-H. and Mosalam, K.M., “Seismic Demand Sensitivity of Reinforced
Concrete Shear-Wall Building Using FOSM Method,” Earthquake Engineering and Structural Dynamics, Vol. 34, No. 14, 1719-1736, 2005.
23. Beall, F.C., Li,
J., Breiner, T.A., Wai, J.,
Machado, C., Oberdorfer, G., and Mosalam, K.M.,
“Small Scale Rack Testing of
Wood-Frame Shear Walls,” Wood and Fiber Science, Vol. 38, No.
2, 300-313, 2006.
24. Pan, P., Tomofuji,
H., Wang, T., Nakashima,
M., Ohsaki, M., and Mosalam, K.M., “Development of Peer-to-Peer (P2P) Internet
Online Hybrid Test System,” Earthquake
Engineering and Structural Dynamics,
Vol. 35, No. 7, 867-890, 2006.
25. Hashemi, A. and Mosalam, K.M., “Shake-Table Experiment on Reinforced
Concrete Structure Containing Masonry Infill Wall,” Earthquake Engineering and Structural
Dynamics, Vol. 35, No. 14, 1827-1852, 2006.
26. Binici, B. and Mosalam, K.M., “Analysis of Reinforced Concrete Columns
Retrofitted With Fiber Reinforced Polymer Lamina,” Composites Part B: Engineering, Composites Part B: Engineering, Vol. 38,
No. 2, 265-276, 2007.
27. Mosalam, K.M.,
Talaat, M., and Binici, B.,
“A Computational Model for
Reinforced Concrete Members Confined with Fiber Reinforced Polymer Lamina: Implementation and Experimental
Validation,”
Composites Part B: Engineering, Vol. 38, No. 5-6, 598-613, 2007.
28. Mosalam, K.M.
and
29. Zhou, F., Mosalam, K.M., and Nakashima, M., “Finite Element Analysis of a Composite Frame
under Large Cyclic Loading,” Journal of Structural Engineering,
ASCE, Vol. 133, No. 7, 1018-1026, 2007.
30. Elkhoraibi,
T. and Mosalam, K.M., “Towards
Error-Free Hybrid Simulation Using Mixed Variables,” Earthquake Engineering and Structural
Dynamics, Vol. 36, No. 11, 1497-1522, 2007.
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