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Deflection analysis of welded steel I‐girders with corrugated webs based on first yield

Deflection analysis of welded steel I‐girders with corrugated webs based on first yield ReferencesFar, C.; Far, H. (2019) Improving energy efficiency of existing residential buildings using effective thermal retrofit of building envelope. Indoor and Built Environment 28, No. 6, pp. 744–760.Lee, S.H.; Park, G.W.; Yoo, J. (2020) Analysis study of shear buckling behavior of trapezoidal and sinusoidal corrugated web girders. International Journal of Steel Structure 20, pp. 525–537.Gao, L.; Ma, X.; Li, R.; Zhang, S. (2011) Experimental research on the seismic behaviour of CSPSWs connected to frame beams. Earthquake Engineering 10, pp. 65–73.Farzampour, A.; Mansouri, I.; Lee, C.; Sim, H.; Hu, J.W. (2018) Analysis and design recommendations for corrugated steel plate shear walls with a reduced beam section. Thin‐Walls Structures 132, pp. 658–666.Far, H. (2020) Flexural behavior of cold‐formed steel‐timber composite flooring systems. Journal of Structural Engineering 146, No. 5, p. 06020003Emami, F.; Mofid, M. (2014) On the hysteretic behaviour of trapezoidal corrugated steel shear walls. Structure Design of Tall Special Building 23, pp. 94–104.Zhou, M.; Liu, Z.; Zhang, J.; An, L. (2016) Deformation analysis of a non‐prismatic beam with corrugated steel webs in the elastic stage. Thin‐Walled Structure 109, pp. 260–270.Saleh, A.; Far, H.; Mok, L. (2018) Effects of different support conditions on experimental bending strength of thin walled cold formed steel storage upright frames. Journal of Constructional Steel Research 150, pp. 1–6.Far, H. (2019) Dynamic behaviour of unbraced steel frames resting on soft ground. Steel Construction 12, No. 2, pp. 135–140. https://doi.org/10.1002/stco.201800003Zevallos, E.; Hassanein, M.F.; Real, E.; Mirambell, E. (2016) Shear evaluation of tapered bridge girder panels with steel corrugated webs near the supports of continuous bridges. Engineering Structures 113, pp. 149–159.Far, H.; Flint, D. (2017) Significance of using isolated footing technique for residential construction on expansive soils. Frontiers of Structural and Civil Engineering 11, No. 1, pp. 123–129.Wang, Y.M.; Shao, Y.B.; Chen, C.; Katwal, U. (2020) Prediction of flexural and shear yielding strength of short span I girders with concrete‐filled tubular flanges and corrugated web‐II: Numerical simulation and theoretical analysis. Thin‐Walled Structures 148.Tabatabaiefar, H.R.; Mansoury, B.; Khadivi Zand, M.J.; Potter, D. (2017) Mechanical properties of sandwich panels constructed from polystyrene/cement mixed cores and thin cement sheet facings. Journal of Sandwich Structures and Materials 19, No. 4, pp. 456–481.Kim, K.S.; Oh, J.; Lee, D.H. (2012) Accordion effect of prestressed steel beams with corrugated webs. Thin‐Walled Structures 57, pp. 49–61.Lin, X.; Far, H.; Zhang, X. (2021) Shear capacity analysis of welded steel I‐girders with corrugated webs based on first yield. International Journal of Steel Structure 21, No. 3, pp. 1053–1062.Ibrahim, S.A. (2014) Lateral torsional buckling strength of unsymmetrical plate girders with corrugated webs. Engineering Structures81, pp. 123–134.Park, G.W.; Lee, S.; Yoo, J. (2019) Analytical study of shear buckling behaviour of trapezoidal and sinusoidal corrugated web girders. International Journal of Steel Structures 20, pp. 525–537.Lin, X.; Far, H.; Saleh, A. (2019) Structural behaviour and mechanical properties of welded steel I‐girders with corrugated webs. International Journal of Steel Structures 19, pp. 1342–1352.Samali, B.; Fatahi, B.; Tabatabaiefar, H.R. (2011) Seismic behaviour of concrete moment resisting buildings on soft soil considering soil‐structure interaction. Incorporating Sustainable Practice in Mechanics of Structures and Materials―Proceedings of the 21st Australian Conference on the Mechanics of Structures and Materials, pp. 407–412.Tabatabaiefar, S.H.R.; Fatahi, B.; Samali, B. (2012) Finite difference modelling of soil‐structure interaction for seismic design of moment resisting building frames. Australian Geomechanics Journal 47, No. 3, pp. 113–120.Massumi, A.; Badkoubeh, A. (2015) Dimensionless analysis of composite rectangular and circular RC columns. Steel and Composite Structures 19, No. 2, pp. 327–348.Walsh, P.; Saleh, A.; Far, H. (2018) Evaluation of structural systems in slender high‐rise buildings. Australian Journal of Structural Engineering 19, No. 2, pp. 105–117.Ibrahim, S.A.; El‐Dakhakhni, W.W.; Elgaaly, M. (2006) Behaviour of bridge girders with corrugated webs under monotonic and cyclic loading. Engineering Structures 28, pp. 1941–1955.Wang, S.; He, J.; Liu, Y. (2019) Shear behaviour I‐girder with stiffened corrugated web, Part I: Experience study. Thin‐Walled Structures 140, pp. 248–262.Leblouba, M.; Tabsh, S.W. (2020) Reliability‐based shear design of corrugated web steel beams for AISC 360 specification and CSA‐S16 standard. Engineering Structures 215.AISC‐360‐16 (2016) Specification for structural steel buildings (ANSI/AISC 360‐16). Chicago, IL: American Institute of Steel Construction.CSA S16‐14 (2019) Design of steel structure. Ontario, Canada: Canadian Standards Association.Driver, R.G.; Kulak, G.L.; Kennedy, D.J.L.; Elwi, A.E. (1998) Cyclic test of four‐story steel plate shear wall. Structures Engineering 124, pp. 112–120.Emami, F.; Mofid, M.; Vafai, A. (2013) Experimental study on cyclic behaviour of trapezoidal corrugated steel shear walls. Engineering Structures 48, pp. 750–762.Far, H.; Saleh, A.; Firouzianhaji, A. (2017) A simple method to determine shear stiffness of thin‐walled cold form steel storage rack frames. Journal of Construction Steel Research 138, pp. 799–805.Far, H.; Far, C. (2017) Long‐term structural behaviour of composite sandwich panels. World Congress on Civil, Structural, and Environmental Engineering, CSEE 2017, Barcelona, 2 April.Massumi, A.; Karimi, N.; Ahmadi, M. (2018) Effects of openings geometry and relative area on seismic performance of steel shear walls. Steel and Composite Structures 28, No. 5, pp. 617–628.Far, H.; Far, C. (2019) Experimental investigation on creep behaviour of composite sandwich panels constructed from polystyrene/cement‐mixed cores and thin cement sheet facings. Australian Journal of Structural Engineering 20, No. 1, pp. 63–73.Far, H.; Far, C. (2019) Timber portal frames vs timber truss‐based systems for residential buildings. Advances in Civil Engineering 2019, p. 9047679He, J.; Wang, S.; Liu, Y.; Wang, D.; Xin, H. (2020) Shear behaviour of steel I‐girder with stiffened corrugated web, Part II: Numerical study. Thin‐Walled Structures 147.AS 4100 (2020) Steel structures. Sydney: Standard Australia.ASTM (2001) A709/A709M‐00a, standard specification for carbon and high‐strength low‐alloy structural steel shapes, plates, and bars and quenched‐and‐tempered alloy structural steel plates for bridges.. ASTM annual book of standards, Vol. 01.04. West Conshohocken, PA: American Society for Testing and Materials.Sause, R.; Abbas, H.H.; Wassef, W.G.; Driver, R.G.; Elgaaly, M. (2003) Corrected web girder shape and strength criteria. ATLSS Report 03‐18. Department of Civil and Environmental Engineering, Lehigh University.Hot Rolled and Structural Steel Products (2021) Welded beams [online]. https://www.libertygfg.com/media/165356/seventh‐edition‐hot‐rolled‐and‐structural‐steel‐productsseventh‐edition‐hot‐rolled‐and‐structural‐steel‐products.pdf [accessed: 10 Feb 2021].Tabatabaiefar, H.R. (2016) Detail design and construction procedure of laminar soil containers for experimental shaking table tests. International Journal of Geotechnical Engineering 10, No. 4, pp. 328–336.Tabatabaiefar, H.R.; Clifton, T. (2016) Significance of considering soil‐structure interaction effects on seismic design of unbraced building frames resting on soft soils. Australian Geomechanics Journal 51, No. 1, pp. 55–64.Ingkiriwang, Y.G.; Far, H. (2018) Numerical investigation of the design of single‐span steel portal frames using the effective length and direct analysis methods. Steel Construction 11, No. 3, pp. 184–191. https://doi.org/10.1002/stco.201700010Haydar, H.; Far, H.; Saleh, A. (2018) Portal steel trusses vs. portal steel frames for long‐span industrial buildings. Steel Construction 11, No. 3, pp. 205–217. https://doi.org/10.1002/stco.201700011Far, C.; Ahmed, I.; MacKee, J. (2022) Significance of occupant behaviour on the energy performance gap in residential buildings. Architecture 2, No. 2, pp. 424–433.AS/NZS 1170.1 (2002) Australian/New Zealand standard and supplement, structural design actions―Part 1: Permanent, imposed and other actions. Sydney: Standard Australia.Computers and Structures (2021) CSI analysis reference manual for SAP 2000 [online]. Berkeley, CA. http://docs.csiamerica.com/manuals/misc/CSI%20Analysis%20Reference%20Manual%202011‐12.pdf [accessed: 12 Feb 2021].Hassanein, M.F.; Elkaws, A.A.; Shao, Y.; Elchalakani, M.; Hadidy, A.M. (2020) Lateral‐torsional buckling behaviour of mono‐symmetric S460 corrugated web bridge girder. Thin‐Walled Structures 153.Martins, A.G.; Fakury, R.H.; Pimenta, R.J.; Queiroz, G.; Rodrigues, F.C. (2012) Moment resistance of composite steel and concrete connection in sinusoidal‐web girders. Journal of Constructional Steel Research 76, pp. 112–120.Chen, Y.; Dong, J.; Tong, Z.; Jiang, R.; Yue, Y. (2020) Flexural behavior of composite box girders with corrugated steel webs and trusses. Engineering Structures 209. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Steel Construction: Design and Research Wiley

Deflection analysis of welded steel I‐girders with corrugated webs based on first yield

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Wiley
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© 2023 Ernst & Sohn GmbH
ISSN
1867-0520
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1867-0539
DOI
10.1002/stco.202200001
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ReferencesFar, C.; Far, H. (2019) Improving energy efficiency of existing residential buildings using effective thermal retrofit of building envelope. Indoor and Built Environment 28, No. 6, pp. 744–760.Lee, S.H.; Park, G.W.; Yoo, J. (2020) Analysis study of shear buckling behavior of trapezoidal and sinusoidal corrugated web girders. International Journal of Steel Structure 20, pp. 525–537.Gao, L.; Ma, X.; Li, R.; Zhang, S. (2011) Experimental research on the seismic behaviour of CSPSWs connected to frame beams. Earthquake Engineering 10, pp. 65–73.Farzampour, A.; Mansouri, I.; Lee, C.; Sim, H.; Hu, J.W. (2018) Analysis and design recommendations for corrugated steel plate shear walls with a reduced beam section. Thin‐Walls Structures 132, pp. 658–666.Far, H. (2020) Flexural behavior of cold‐formed steel‐timber composite flooring systems. Journal of Structural Engineering 146, No. 5, p. 06020003Emami, F.; Mofid, M. (2014) On the hysteretic behaviour of trapezoidal corrugated steel shear walls. Structure Design of Tall Special Building 23, pp. 94–104.Zhou, M.; Liu, Z.; Zhang, J.; An, L. (2016) Deformation analysis of a non‐prismatic beam with corrugated steel webs in the elastic stage. Thin‐Walled Structure 109, pp. 260–270.Saleh, A.; Far, H.; Mok, L. (2018) Effects of different support conditions on experimental bending strength of thin walled cold formed steel storage upright frames. Journal of Constructional Steel Research 150, pp. 1–6.Far, H. (2019) Dynamic behaviour of unbraced steel frames resting on soft ground. Steel Construction 12, No. 2, pp. 135–140. https://doi.org/10.1002/stco.201800003Zevallos, E.; Hassanein, M.F.; Real, E.; Mirambell, E. (2016) Shear evaluation of tapered bridge girder panels with steel corrugated webs near the supports of continuous bridges. Engineering Structures 113, pp. 149–159.Far, H.; Flint, D. (2017) Significance of using isolated footing technique for residential construction on expansive soils. Frontiers of Structural and Civil Engineering 11, No. 1, pp. 123–129.Wang, Y.M.; Shao, Y.B.; Chen, C.; Katwal, U. (2020) Prediction of flexural and shear yielding strength of short span I girders with concrete‐filled tubular flanges and corrugated web‐II: Numerical simulation and theoretical analysis. Thin‐Walled Structures 148.Tabatabaiefar, H.R.; Mansoury, B.; Khadivi Zand, M.J.; Potter, D. (2017) Mechanical properties of sandwich panels constructed from polystyrene/cement mixed cores and thin cement sheet facings. Journal of Sandwich Structures and Materials 19, No. 4, pp. 456–481.Kim, K.S.; Oh, J.; Lee, D.H. (2012) Accordion effect of prestressed steel beams with corrugated webs. Thin‐Walled Structures 57, pp. 49–61.Lin, X.; Far, H.; Zhang, X. (2021) Shear capacity analysis of welded steel I‐girders with corrugated webs based on first yield. International Journal of Steel Structure 21, No. 3, pp. 1053–1062.Ibrahim, S.A. (2014) Lateral torsional buckling strength of unsymmetrical plate girders with corrugated webs. Engineering Structures81, pp. 123–134.Park, G.W.; Lee, S.; Yoo, J. (2019) Analytical study of shear buckling behaviour of trapezoidal and sinusoidal corrugated web girders. International Journal of Steel Structures 20, pp. 525–537.Lin, X.; Far, H.; Saleh, A. (2019) Structural behaviour and mechanical properties of welded steel I‐girders with corrugated webs. International Journal of Steel Structures 19, pp. 1342–1352.Samali, B.; Fatahi, B.; Tabatabaiefar, H.R. (2011) Seismic behaviour of concrete moment resisting buildings on soft soil considering soil‐structure interaction. Incorporating Sustainable Practice in Mechanics of Structures and Materials―Proceedings of the 21st Australian Conference on the Mechanics of Structures and Materials, pp. 407–412.Tabatabaiefar, S.H.R.; Fatahi, B.; Samali, B. (2012) Finite difference modelling of soil‐structure interaction for seismic design of moment resisting building frames. Australian Geomechanics Journal 47, No. 3, pp. 113–120.Massumi, A.; Badkoubeh, A. (2015) Dimensionless analysis of composite rectangular and circular RC columns. Steel and Composite Structures 19, No. 2, pp. 327–348.Walsh, P.; Saleh, A.; Far, H. (2018) Evaluation of structural systems in slender high‐rise buildings. Australian Journal of Structural Engineering 19, No. 2, pp. 105–117.Ibrahim, S.A.; El‐Dakhakhni, W.W.; Elgaaly, M. (2006) Behaviour of bridge girders with corrugated webs under monotonic and cyclic loading. Engineering Structures 28, pp. 1941–1955.Wang, S.; He, J.; Liu, Y. (2019) Shear behaviour I‐girder with stiffened corrugated web, Part I: Experience study. Thin‐Walled Structures 140, pp. 248–262.Leblouba, M.; Tabsh, S.W. (2020) Reliability‐based shear design of corrugated web steel beams for AISC 360 specification and CSA‐S16 standard. Engineering Structures 215.AISC‐360‐16 (2016) Specification for structural steel buildings (ANSI/AISC 360‐16). Chicago, IL: American Institute of Steel Construction.CSA S16‐14 (2019) Design of steel structure. Ontario, Canada: Canadian Standards Association.Driver, R.G.; Kulak, G.L.; Kennedy, D.J.L.; Elwi, A.E. (1998) Cyclic test of four‐story steel plate shear wall. Structures Engineering 124, pp. 112–120.Emami, F.; Mofid, M.; Vafai, A. (2013) Experimental study on cyclic behaviour of trapezoidal corrugated steel shear walls. Engineering Structures 48, pp. 750–762.Far, H.; Saleh, A.; Firouzianhaji, A. (2017) A simple method to determine shear stiffness of thin‐walled cold form steel storage rack frames. Journal of Construction Steel Research 138, pp. 799–805.Far, H.; Far, C. (2017) Long‐term structural behaviour of composite sandwich panels. World Congress on Civil, Structural, and Environmental Engineering, CSEE 2017, Barcelona, 2 April.Massumi, A.; Karimi, N.; Ahmadi, M. (2018) Effects of openings geometry and relative area on seismic performance of steel shear walls. Steel and Composite Structures 28, No. 5, pp. 617–628.Far, H.; Far, C. (2019) Experimental investigation on creep behaviour of composite sandwich panels constructed from polystyrene/cement‐mixed cores and thin cement sheet facings. Australian Journal of Structural Engineering 20, No. 1, pp. 63–73.Far, H.; Far, C. (2019) Timber portal frames vs timber truss‐based systems for residential buildings. Advances in Civil Engineering 2019, p. 9047679He, J.; Wang, S.; Liu, Y.; Wang, D.; Xin, H. (2020) Shear behaviour of steel I‐girder with stiffened corrugated web, Part II: Numerical study. Thin‐Walled Structures 147.AS 4100 (2020) Steel structures. Sydney: Standard Australia.ASTM (2001) A709/A709M‐00a, standard specification for carbon and high‐strength low‐alloy structural steel shapes, plates, and bars and quenched‐and‐tempered alloy structural steel plates for bridges.. ASTM annual book of standards, Vol. 01.04. West Conshohocken, PA: American Society for Testing and Materials.Sause, R.; Abbas, H.H.; Wassef, W.G.; Driver, R.G.; Elgaaly, M. (2003) Corrected web girder shape and strength criteria. ATLSS Report 03‐18. Department of Civil and Environmental Engineering, Lehigh University.Hot Rolled and Structural Steel Products (2021) Welded beams [online]. https://www.libertygfg.com/media/165356/seventh‐edition‐hot‐rolled‐and‐structural‐steel‐productsseventh‐edition‐hot‐rolled‐and‐structural‐steel‐products.pdf [accessed: 10 Feb 2021].Tabatabaiefar, H.R. (2016) Detail design and construction procedure of laminar soil containers for experimental shaking table tests. International Journal of Geotechnical Engineering 10, No. 4, pp. 328–336.Tabatabaiefar, H.R.; Clifton, T. (2016) Significance of considering soil‐structure interaction effects on seismic design of unbraced building frames resting on soft soils. Australian Geomechanics Journal 51, No. 1, pp. 55–64.Ingkiriwang, Y.G.; Far, H. (2018) Numerical investigation of the design of single‐span steel portal frames using the effective length and direct analysis methods. Steel Construction 11, No. 3, pp. 184–191. https://doi.org/10.1002/stco.201700010Haydar, H.; Far, H.; Saleh, A. (2018) Portal steel trusses vs. portal steel frames for long‐span industrial buildings. Steel Construction 11, No. 3, pp. 205–217. https://doi.org/10.1002/stco.201700011Far, C.; Ahmed, I.; MacKee, J. (2022) Significance of occupant behaviour on the energy performance gap in residential buildings. Architecture 2, No. 2, pp. 424–433.AS/NZS 1170.1 (2002) Australian/New Zealand standard and supplement, structural design actions―Part 1: Permanent, imposed and other actions. Sydney: Standard Australia.Computers and Structures (2021) CSI analysis reference manual for SAP 2000 [online]. Berkeley, CA. http://docs.csiamerica.com/manuals/misc/CSI%20Analysis%20Reference%20Manual%202011‐12.pdf [accessed: 12 Feb 2021].Hassanein, M.F.; Elkaws, A.A.; Shao, Y.; Elchalakani, M.; Hadidy, A.M. (2020) Lateral‐torsional buckling behaviour of mono‐symmetric S460 corrugated web bridge girder. Thin‐Walled Structures 153.Martins, A.G.; Fakury, R.H.; Pimenta, R.J.; Queiroz, G.; Rodrigues, F.C. (2012) Moment resistance of composite steel and concrete connection in sinusoidal‐web girders. Journal of Constructional Steel Research 76, pp. 112–120.Chen, Y.; Dong, J.; Tong, Z.; Jiang, R.; Yue, Y. (2020) Flexural behavior of composite box girders with corrugated steel webs and trusses. Engineering Structures 209.

Journal

Steel Construction: Design and ResearchWiley

Published: May 1, 2023

Keywords: deflection; steel; corrugated web beams; optimisation; SAP 2000; load‐carrying capacity; ultimate limit state design; finite element analysis; steel structures; bending moments; beams and girders; Analysis and design; Steel buildings; Berechnungs‐ und Bemessungsverfahren; Stahlhochbau

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