Experiments on skewed reinforced concrete slabs failing in shear

Jiandong Lu; Yuguang Yang; Max Hendriks; Eva Lantsoght

doi:10.2749/ghent.2025.0789

Experiments on skewed reinforced concrete slabs failing in shear

Jiandong Lu
, Yuguang Yang
, Max Hendriks
, Eva Lantsoght^*

^*Corresponding author for this work

Delft University of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Reinforced concrete solid slab bridges are often skewed to cross underlying objects, which increases the shear stress concentration at the obtuse corner. Limited experimental evidence on skewed slabs is available, so that both the shear capacity and failure mode in skewed slab bridges are subject to discussion. Therefore, an experimental program at Delft University of Technology investigated the capacity and failure modes in skewed slabs under concentrated loads near the edge. Results from 15 tests on five 1:2-scale slab members result in shear failures and show a decreasing capacity with increasing skew angles. The obtuse corner is found to be critical; the reinforcement layout did not influence the capacity significantly. Comparisons with calculation methods showed reasonable accuracy. A proposed method using a larger integration length around the peak shear stress obtained from linear finite element modeling may be recommended for assessment.

Original language	English
Title of host publication	IABSE Congress Ghent 2025
Subtitle of host publication	The Essence of Structural Engineering for Society, Proceedings
Editors	Davide Leonetti, Bert Snijder, Bart De Pauw, Bart De Pauw, Sander van Alphen
Publisher	International Association for Bridge and Structural Engineering (IABSE)
Pages	789-796
Number of pages	8
ISBN (Electronic)	9783857482106
DOIs	https://doi.org/10.2749/ghent.2025.0789
State	Published - 2025
Event	2025 International Association for Bridge and Structural Engineering, IABSE 2025 - Ghent, Belgium Duration: 27 Aug 2025 → 29 Aug 2025

Publication series

Name	IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings

Conference

Conference	2025 International Association for Bridge and Structural Engineering, IABSE 2025
Country/Territory	Belgium
City	Ghent
Period	27/08/25 → 29/08/25

Keywords

assessment
experiments
finite element modelling
flexure
reinforcement layout
shear
skewness
slab bridges
slabs

Access to Document

10.2749/ghent.2025.0789

Cite this

Lu, J., Yang, Y., Hendriks, M., & Lantsoght, E. (2025). Experiments on skewed reinforced concrete slabs failing in shear. In D. Leonetti, B. Snijder, B. De Pauw, B. De Pauw, & S. van Alphen (Eds.), IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings (pp. 789-796). (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings). International Association for Bridge and Structural Engineering (IABSE). https://doi.org/10.2749/ghent.2025.0789

Lu, Jiandong ; Yang, Yuguang ; Hendriks, Max et al. / Experiments on skewed reinforced concrete slabs failing in shear. IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. editor / Davide Leonetti ; Bert Snijder ; Bart De Pauw ; Bart De Pauw ; Sander van Alphen. International Association for Bridge and Structural Engineering (IABSE), 2025. pp. 789-796 (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings).

@inproceedings{b37342c3a2614f5e9615012424485599,

title = "Experiments on skewed reinforced concrete slabs failing in shear",

abstract = "Reinforced concrete solid slab bridges are often skewed to cross underlying objects, which increases the shear stress concentration at the obtuse corner. Limited experimental evidence on skewed slabs is available, so that both the shear capacity and failure mode in skewed slab bridges are subject to discussion. Therefore, an experimental program at Delft University of Technology investigated the capacity and failure modes in skewed slabs under concentrated loads near the edge. Results from 15 tests on five 1:2-scale slab members result in shear failures and show a decreasing capacity with increasing skew angles. The obtuse corner is found to be critical; the reinforcement layout did not influence the capacity significantly. Comparisons with calculation methods showed reasonable accuracy. A proposed method using a larger integration length around the peak shear stress obtained from linear finite element modeling may be recommended for assessment.",

keywords = "assessment, experiments, finite element modelling, flexure, reinforcement layout, shear, skewness, slab bridges, slabs",

author = "Jiandong Lu and Yuguang Yang and Max Hendriks and Eva Lantsoght",

note = "Publisher Copyright: {\textcopyright} 2025 IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. All rights reserved.; 2025 International Association for Bridge and Structural Engineering, IABSE 2025 ; Conference date: 27-08-2025 Through 29-08-2025",

year = "2025",

doi = "10.2749/ghent.2025.0789",

language = "Ingl{\'e}s",

series = "IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings",

publisher = "International Association for Bridge and Structural Engineering (IABSE)",

pages = "789--796",

editor = "Davide Leonetti and Bert Snijder and \{De Pauw\}, Bart and \{De Pauw\}, Bart and \{van Alphen\}, Sander",

booktitle = "IABSE Congress Ghent 2025",

}

Lu, J, Yang, Y, Hendriks, M & Lantsoght, E 2025, Experiments on skewed reinforced concrete slabs failing in shear. in D Leonetti, B Snijder, B De Pauw, B De Pauw & S van Alphen (eds), IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings, International Association for Bridge and Structural Engineering (IABSE), pp. 789-796, 2025 International Association for Bridge and Structural Engineering, IABSE 2025, Ghent, Belgium, 27/08/25. https://doi.org/10.2749/ghent.2025.0789

Experiments on skewed reinforced concrete slabs failing in shear. / Lu, Jiandong; Yang, Yuguang; Hendriks, Max et al.
IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. ed. / Davide Leonetti; Bert Snijder; Bart De Pauw; Bart De Pauw; Sander van Alphen. International Association for Bridge and Structural Engineering (IABSE), 2025. p. 789-796 (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Experiments on skewed reinforced concrete slabs failing in shear

AU - Lu, Jiandong

AU - Yang, Yuguang

AU - Hendriks, Max

AU - Lantsoght, Eva

PY - 2025

Y1 - 2025

N2 - Reinforced concrete solid slab bridges are often skewed to cross underlying objects, which increases the shear stress concentration at the obtuse corner. Limited experimental evidence on skewed slabs is available, so that both the shear capacity and failure mode in skewed slab bridges are subject to discussion. Therefore, an experimental program at Delft University of Technology investigated the capacity and failure modes in skewed slabs under concentrated loads near the edge. Results from 15 tests on five 1:2-scale slab members result in shear failures and show a decreasing capacity with increasing skew angles. The obtuse corner is found to be critical; the reinforcement layout did not influence the capacity significantly. Comparisons with calculation methods showed reasonable accuracy. A proposed method using a larger integration length around the peak shear stress obtained from linear finite element modeling may be recommended for assessment.

AB - Reinforced concrete solid slab bridges are often skewed to cross underlying objects, which increases the shear stress concentration at the obtuse corner. Limited experimental evidence on skewed slabs is available, so that both the shear capacity and failure mode in skewed slab bridges are subject to discussion. Therefore, an experimental program at Delft University of Technology investigated the capacity and failure modes in skewed slabs under concentrated loads near the edge. Results from 15 tests on five 1:2-scale slab members result in shear failures and show a decreasing capacity with increasing skew angles. The obtuse corner is found to be critical; the reinforcement layout did not influence the capacity significantly. Comparisons with calculation methods showed reasonable accuracy. A proposed method using a larger integration length around the peak shear stress obtained from linear finite element modeling may be recommended for assessment.

KW - assessment

KW - experiments

KW - finite element modelling

KW - flexure

KW - reinforcement layout

KW - shear

KW - skewness

KW - slab bridges

KW - slabs

UR - https://www.scopus.com/pages/publications/105021087518

U2 - 10.2749/ghent.2025.0789

DO - 10.2749/ghent.2025.0789

M3 - Contribución a la conferencia

AN - SCOPUS:105021087518

T3 - IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings

SP - 789

EP - 796

BT - IABSE Congress Ghent 2025

A2 - Leonetti, Davide

A2 - Snijder, Bert

A2 - De Pauw, Bart

A2 - van Alphen, Sander

PB - International Association for Bridge and Structural Engineering (IABSE)

T2 - 2025 International Association for Bridge and Structural Engineering, IABSE 2025

Y2 - 27 August 2025 through 29 August 2025

ER -

Lu J, Yang Y, Hendriks M, Lantsoght E. Experiments on skewed reinforced concrete slabs failing in shear. In Leonetti D, Snijder B, De Pauw B, De Pauw B, van Alphen S, editors, IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. International Association for Bridge and Structural Engineering (IABSE). 2025. p. 789-796. (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings). doi: 10.2749/ghent.2025.0789

Experiments on skewed reinforced concrete slabs failing in shear

Abstract

Publication series

Conference

Keywords

Access to Document

Other files and links

Fingerprint

Cite this