Articles with public access mandates - Frank VecchioLearn more
Not available anywhere: 1
Influence of Spatial Variability of Concrete in Large Shear-Critical Structures.
MD Hunter, AC Ferche, FJ Vecchio
ACI Structural Journal 118 (2), 2021
Mandates: Natural Sciences and Engineering Research Council of Canada
Available somewhere: 19
Concrete damage under fatigue loading in uniaxial compression
B Isojeh, M El-Zeghayar, FJ Vecchio
ACI Mater. J 114 (2), 225-235, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Modeling of interior beam-column joints for nonlinear analysis of reinforced concrete frames
Z Pan, S Guner, FJ Vecchio
Engineering Structures 142, 182-191, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Analysis of steel fiber-reinforced concrete elements subjected to shear
SC Lee, JY Cho, FJ Vecchio
ACI Struct. J 113 (2), 275-285, 2016
Mandates: Natural Sciences and Engineering Research Council of Canada
High-cycle fatigue life prediction of reinforced concrete deep beams
B Isojeh, M El-Zeghayar, FJ Vecchio
Engineering Structures 150, 12-24, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Fatigue behavior of steel fiber concrete in direct tension
B Isojeh, M El-Zeghayar, FJ Vecchio
Journal of Materials in Civil Engineering 29 (9), 04017130, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Capturing out-of-plane shear failures in the analysis of reinforced concrete shells
TD Hrynyk, FJ Vecchio
Journal of Structural Engineering 141 (12), 04015058, 2015
Mandates: Natural Sciences and Engineering Research Council of Canada
Simplified constitutive model for fatigue behavior of concrete in compression
B Isojeh, M El-Zeghayar, FJ Vecchio
Journal of Materials in Civil Engineering 29 (7), 04017028, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Fatigue Resistance of Steel Fiber-Reinforced Concrete Deep Beams.
B Isojeh, M El-Zeghayar, FJ Vecchio
ACI Structural Journal 114 (5), 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Behavior of steel fiber-reinforced concrete under reversed cyclic shear
JW Luo, FJ Vecchio
ACI Structural Journal 113 (1), 75, 2016
Mandates: Natural Sciences and Engineering Research Council of Canada
Numerical analysis of reinforced concrete and steel-fiber concrete elements under fatigue loading
B Isojeh, M El-Zeghayar, FJ Vecchio
Journal of Structural Engineering 145 (11), 04019126, 2019
Mandates: Natural Sciences and Engineering Research Council of Canada
Mechanical properties of alkali-silica reaction-affected concrete
AC Ferche, FJ Vecchio
ACI Mater. J 119 (1), 251-262, 2022
Mandates: Natural Sciences and Engineering Research Council of Canada
Modeling of ultra-high-performance fiber-reinforced concrete in shear
Z Zhang, FJ Vecchio, EC Bentz, SJ Foster
ACI Structural Journal 119 (1), 295-305, 2022
Mandates: Australian Research Council
Modeling corrosion-damaged reinforced concrete members
S Habibi, AC Ferche, FJ Vecchio
ACI Struct. J 119 (1), 169-182, 2022
Mandates: Natural Sciences and Engineering Research Council of Canada
Behavior of alkali-silica reaction-affected reinforced concrete elements subjected to shear
AC Ferche, FJ Vecchio
ACI Structural Journal 118 (4), 163-174, 2021
Mandates: Natural Sciences and Engineering Research Council of Canada
An integrated simulation method for performance-based assessment of a structure
X Huang, V Sadeghian, F Rong, OS Kwon, F Vecchio
6th International Conference Engineering Mechanics and Materials, 2017
Mandates: Natural Sciences and Engineering Research Council of Canada
Stochastic finite element analysis of shear-critical concrete structures
MD Hunter, AC Ferche, FJ Vecchio
ACI Struct J 118 (3), 71-83, 2021
Mandates: Natural Sciences and Engineering Research Council of Canada
Modeling of alkali-silica reaction-affected shear-critical reinforced concrete structures
AC Ferche, FJ Vecchio
ACI Struct. J 119 (2), 75-88, 2022
Mandates: Natural Sciences and Engineering Research Council of Canada
Prediction of perforation velocity of hard missile impacts on reinforced concrete wall panels
A Lulec, V Sadeghian, FJ Vecchio
Canadian Journal of Civil Engineering 48 (1), 26-38, 2021
Mandates: Natural Sciences and Engineering Research Council of Canada
Reduced-cost modelling of reinforced concrete infrastructure under high-mass low-velocity impact
TD Hrynyk, FJ Vecchio
Proceedings of the 7th International Colloquium on Performance, Protection …, 2019
Mandates: Natural Sciences and Engineering Research Council of Canada
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