Purushotham Pakala
Title
Cited by
Cited by
Year
Energy based time equivalent approach for evaluating fire resistance of reinforced concrete beams
VKR Kodur, P Pakala, MB Dwaikat
Fire Safety Journal 45 (4), 211-220, 2010
432010
Modeling the response of composite beam–slab assemblies exposed to fire
VKR Kodur, M Naser, P Pakala, A Varma
Journal of Constructional Steel Research 80, 163-173, 2013
392013
Fire behavior of shear angle connections in a restrained steel frame
P Pakala, V Kodur, S Selamet, M Garlock
Journal of Constructional Steel Research 77, 119-130, 2012
192012
Critical factors influencing the fire performance of bolted double angle connections
P Pakala, V Kodur, M Dwaikat
Engineering Structures 42, 106-114, 2012
162012
System-level approach to predict the transient fire response of double angle connections
P Pakala, V Kodur
Journal of Constructional Steel Research 89, 132-144, 2013
112013
Effect of concrete slab on the behavior of fire exposed subframe assemblies with bolted double angle connections
P Pakala, V Kodur
Engineering Structures 107, 101-115, 2016
92016
Energy Based Time Equivalent Approach for Evaluating Fire Resistance under Design Fire Exposures
V Kodur, P Pakala
Structures Congress 2010, 1287-1298, 2010
62010
Energy based equivalent approach for evaluating fire resistance of reinforced concrete beams
P Pakala
MICHIGAN STATE UNIVERSITY, 2009
52009
Experimental evaluation of composite floor assemblies under fire loading
EI Wellman, AH Varma, R Fike, P Pakala, V Kodur
ASCE Structures Congress, 2011
42011
System-level transient fire response of double angle connections in steel framed structures
P Pakala
MICHIGAN STATE UNIVERSITY, 2014
2014
Experimental Evaluation of Composite Floor Assemblies Under Fire Loading
P Pakala, R Fike, E Wellman, V Kodur, A Varma
Structures Congress 2011, 451-462, 2011
2011
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Articles 1–11