Liya Li

Publications

Articles de revue

• Li, L.; Boissonnade, N. (2023). Design of mono-symmetric I-sections under combined load cases by the O.I.C. Thin-Walled Structures 182 110280. (Published).
• Li, L.; Paquet, J.*; Couto, C.; Real, P.V.; Boissonnade, N. (2023). Fire local stability of steel I-sections under simple load cases. Engineering Structures 283 115874. (Published).
• Li, L.; Paquet, J.*; Couto, C.; Real, P.V.; Boissonnade, N. (2023). Improved fire design of steel I-sections under combined compression and bending. Structures (Published).
• Dahboul, S.*; Li, L.; Coderre, T.*; Boissonnade, N. (2023). O.I.C.-based design of extruded and welded aluminum I-sections. Structures (Submitted).
• Li, L.; Boissonnade, N. (2022). Local/global coupled instabilities of slender I-sections under compression. Thin-Walled Structures 172 108842. (Published).
• Li, L.; Fafard, M.; Boissonnade, N. (2022). Local and global instabilities of rolled T-section members under axial compression. Thin-Walled Structures 178 109517. (Published).
• Li, L.; Gérard, L.; Langlois, S.; Boissonnade, N. (2022). OIC-based design of mono-symmetric I-sections under simple load cases. Thin-Walled Structures 174 109134. (Published).
• Li, L.; Gérard, L.; Kettler, M.; Boissonnade, N. (2022). The Overall Interaction Concept for the design of hot-rolled and welded I-sections under combined loading. Thin-Walled Structures 172 108623. (Published).
• Gérard, L.; Li, L.; Kettler, M.; Boissonnade, N. (2020). Steel I-sections resistance under compression orbending by the Overall Interaction Concept. Journal of Constructional Steel Research 182 106644. (Published).
• Gérard, L.; Li, L.; Kettler, M.; Boissonnade, N. (2019). Recommendations on the geometrical imperfections definition for the resistance of I-sections. Journal of Constructional Steel Research 162 105716. (Published).
• Li, L.; Lin, C.; Yuan, W. (2019). Research on local buckling behavior of axially compressed stub columns with hot-rolled steel square and rectangular hollow sections considering the element interaction (In Chinese). Building Structure 49 85-96. (Published).
• Lin, C.; Li, L.; Yuan, W. (2018). Research on the design methods for bearing capacity of hot-rolled steel SHS/RHS under bending (In Chinese). Industrial Construction 48 166-171. (Published).

Rapports

• Li, L.; Boissonnade, N.; Fafard, M. (2022). Resistance of extruded aluminium sections with complex geometries – Preliminary studies. AluQuébec. 38 p.

Articles de conférence

• Li, L.; Dahboul, S.*; Verma, P.*; Dey, P.; Fafard, M.; Boissonnade, N. (2023). An experimental study on the local instability of aluminium circular hollow sections. Springer, (Accepted).
• Dahboul, S.*; Coderre, T.*; Li, L.; Boissonnade, N. (2023). Behaviour and Designof I-Shaped Aluminium Sections. Engineering Proceedings, (Published).
• Li, L., Gérard, L.; Boissonnade, N. (2023). Cross-section stability of hot-rolled and welded I-shapes under combined loading. American Institute of Steel Construction (AISC), (Published).
• Verma, P.*; Coderre, T.*; Dahboul, S.*; Li, L.; Dey P.; Boissonnade, N. (2023). Development of an alternative design method for aluminum I sections using Overall Interaction Concept. Springer, (Accepted).
• Dahboul, S.*; Li, L.; Verma, P.*; Dey, P.; Boissonnade, N. (2023). Experimental characterization of the resistance of tubular aluminium sections. Engineering Proceedings, (Published).
• Dahboul, S.*; Li, L.; Verma, P.*; Dey, P.; Boissonnade, N. (2023). Experimental investigation on the local stability thin-walled aluminium extrusions of different shapes. Springer, (Accepted).
• Coderre, T.*; Li, L.; Dahboul, S.*; Boissonnade, N. (2023). Local buckling and design of aluminum I-shapes. American Institute of Steel Construction (AISC), (Published).
• Li, L.; Dahboul, S.*; Verma, P.*; Dey, P.; Fafard, M.; Boissonnade, N. (2023). O.I.C.-based design of aluminum circular hollow sections under compression or bending. Engineering Proceedings, (Published).
• Gagné, A.-S.*; Li, L.; Boissonnade, N. (2023). Stability and designof stainless WF shapes in combined compression and bending. American Institute of Steel Construction (AISC), (Published).
• Verma, P.*; Dahboul, S.*; Li, L.; Dey, P.; Boissonnade, N. (2023). Tests on aluminum sections with simple and complex geometries. Engineering Proceedings, (Published).
• Li, L.; Gérard, L.; Hayeck, M.; Boissonnade, N. (2017). Stability of Slender Section HSS Columns. American Institute of Steel Construction (AISC), (Published).

Autres contributions

Présentations

• (2023). Cross-section stability of hot-rolled and welded I-shapes under combined loading. SSRC Annual Stability Conference. Charlotte, United States of America
• (2023). Experimental investigation on the local stability of aluminium circular hollow sections. CSCE Annual Conference. Moncton, Canada
• (2023). Local buckling and design of aluminum I-shapes. SSRC Annual Stability Conference. Charlotte, United States of America
• (2023). O.I.C.-based design of aluminum circular hollow sections under compression or bending. 15th International Aluminium Conference - INALCO 2023. Québec, Canada
• (2022). O.I.C. design of steel sections in case of fire. Centre d'études interuniversitaire des structures sous charges extrêmes (CEISCE). Montreal, Canada
• (2018). Investigation on the imperfection sensitivity of open-sections. SSRC Annual Stability Conference. Baltimore, United States of America