TY - JOUR
T1 - ONE-WAY SLABS IN TRANSITION BETWEEN ONEWAY SHEAR AND PUNCHING
T2 - 1st Latin American Conference in Structural Engineering and Construction, LATAM-SEC 2024
AU - DE SOUSA, Alex
AU - Lantsoght, Eva
AU - El Debs, Mounir
N1 - Publisher Copyright:
© 2024 ISEC Press.
PY - 2024
Y1 - 2024
N2 - Bridge deck slabs are members on which one-way reinforced concrete slabs are found frequently loaded by concentrated loads. Although the one-way shear failure mechanism has gathered more attention in the past years, both one-way shear and two-way shear mechanisms may be critical for such loading conditions. This paper addressed the ultimate capacity of thin one-way reinforced concrete slabs subjected to concentrated loads and yielding of the flexural reinforcement. In practice, the test setup studied was devised to represent short-span rural bridges frequently found in Brazil. The experimental program included 12 tests performed on 6 slabs applying the concentrated loads at varied positions. All tests started to fail by punching shear. Nevertheless, both one-way shear and punching shear cracks were observed at ultimate states after shear redistribution. The reinforcement yielding followed by excessive flexural cracking hampered the arching action activation for loads closer to the support. The comparison of experimental and calculated resistances using standard code-based expressions suggests that improvements in unitary shear capacity could be supported as a result of slabs' transverse load distribution capacity. Alternatively, increasing the effective shear width can help estimate one-way shear capacity for loads near to the support.
AB - Bridge deck slabs are members on which one-way reinforced concrete slabs are found frequently loaded by concentrated loads. Although the one-way shear failure mechanism has gathered more attention in the past years, both one-way shear and two-way shear mechanisms may be critical for such loading conditions. This paper addressed the ultimate capacity of thin one-way reinforced concrete slabs subjected to concentrated loads and yielding of the flexural reinforcement. In practice, the test setup studied was devised to represent short-span rural bridges frequently found in Brazil. The experimental program included 12 tests performed on 6 slabs applying the concentrated loads at varied positions. All tests started to fail by punching shear. Nevertheless, both one-way shear and punching shear cracks were observed at ultimate states after shear redistribution. The reinforcement yielding followed by excessive flexural cracking hampered the arching action activation for loads closer to the support. The comparison of experimental and calculated resistances using standard code-based expressions suggests that improvements in unitary shear capacity could be supported as a result of slabs' transverse load distribution capacity. Alternatively, increasing the effective shear width can help estimate one-way shear capacity for loads near to the support.
KW - Arching action
KW - Concentrated loads
KW - Effective shear width
KW - Reinforced concrete
KW - Shear redistribution
UR - http://www.scopus.com/inward/record.url?scp=85192731071&partnerID=8YFLogxK
U2 - 10.14455/ISEC.2024.11(1).STR-10
DO - 10.14455/ISEC.2024.11(1).STR-10
M3 - Artículo de la conferencia
AN - SCOPUS:85192731071
SN - 2644-108X
VL - 11
JO - Proceedings of International Structural Engineering and Construction
JF - Proceedings of International Structural Engineering and Construction
IS - 1
Y2 - 4 March 2024 through 8 March 2024
ER -