DEVELOPMENT AND APPLICATION OF A MECHANICAL MODEL OF BEAM-TO-COLUMN CONNECTIONS OF STEEL STORAGE RACKS - IJASC-Advanced Steel Construction an International Journal

Vol. 15, No. 3, pp. 297-305 (2019)

DEVELOPMENT AND APPLICATION OF A MECHANICAL MODEL OF

BEAM-TO-COLUMN CONNECTIONS OF STEEL STORAGE RACKS

Nattawut Asawasongkram ^{1, *}, Prakit Chomchuen¹ and Prakit Premthamkorn ¹

¹ Department of Civil Engineering, Faculty of Engineering, Mahanakorn University of Technology,

Nong Chok, Bangkok, 10530, Thailand

* (Corresponding author: E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.)

Received: 7 January 2018; Revised: 3 February 2019; Accepted: 1 May 2019

DOI:10.18057/IJASC.2019.15.3.10

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ABSTRACT

This paper focuses on the development of a mechanical model of beam-to-column connections of steel storage racks for predicting the initial rotational stiffness and flexural strength of the connection. An application of the proposed mechanical model for predicting the lateral behavior of steel storage racks is also evaluated. The connection model is developed based on the concept of component method suggested by Eurocode 3. A new practical methodology for evaluation of the flexural strength based on the actual failure mode is introduced. To validate the proposed mechanical model, extensive studies on experimental testing by cantilever and the portal tests specified in steel storage rack design specification are conducted. The validation shows that the performance of the proposed mechanical model is satisfactory for predicting the response of connection. Moreover, it reveals that a modification factor of initial rotational stiffness and initial looseness should be incorporated into a rack’s connection model to improve the accuracy in predicting lateral behavior of steel storage frames.

KEYWORDS

Beam-to-column connections, Component method, Experimental testing, Mechanical model, Semi-rigid connections, Steel storage racks

REFERENCES

[1] Markazi F.D., Beale R.G. and Godley M.H.R., “Experimental analysis of semi-rigid boltless connectors”, Journal of Constructional Steel Research, 28(1), 57-87, 1997.

[2] Bernuzzi C. and Castiglioni C.A., “Experimental analysis on the cyclic behaviour of beam-to-column joints in steel storage pallet racks”, Thin- Walled Structures, 39(10), 841-859, 2001.

[3] Aguirre C., “Seismic behavior of rack structures”, Journal of Constructional Steel Research, 61(5), 607-624, 2005.

[4] Abdel-Jaber M., Beale R.G. and Godley M.H.R., “A theoretical and experimental investigation of pallet rack structures under sway”, Journal of Constructional Steel Research, 62(1), 68-80, 2006.

[5] Bajoria K.M. and Talikoti R.S., “Determination of flexibility of beam-to-column connectors used in thin walled cold-formed steel pallet racking systems”, Thin- Walled Structures, 44(3), 372-380, 2006.

[6] Prabha P., Marimuthu V., Saravanan M. and Jayachandran A.S., “Evaluation of connection flexibility in cold formed steel racks”, Journal of Constructional Steel Research, 66(7), 863-872, 2010.

[7] Zhao X., Wang T., Chen Y. and Sivakumaran K.S., “Flexural behavior of steel storage rack beam-to-upright connections”, Journal of Constructional Steel Research, 99(8), 161-175, 2014.

[8] Shah S.N.R., Sulong N.H.R., Khan R. and Jumaat M.Z., “Structural performance of boltless beam end connectors”, Advanced Steel Construction, 13(2), 144-159, 2017.

[9] Kozlowski A., Rzeszow and Sleczka L., “Preliminary component method model of storage rack joint”, Proceeding of the fifth international workshop on connections in steel structures, Delft University of Technology, Netherlands, June, 253-262, 2004.

[10] CEN, “Eurocode 3 - Design of steel structures Part 1-8: Design of joints”, CEN European Committee for Standardization, Brussels, Belgium, 2005.

[11] Asawasongkram N., Chomchuen P. and Premthamkorn P., “Experimental analysis of beam-to-column connection in steel storage racks using cantilever test and portal test method”, Proceeding of the 13th East Asia-Pacific Conference on Structural Engineering and Construction, Sapporo, Japan, Paper No.268, 2013.

[12] Krawinkler H., Cofie N.G., Astiz M.A. and Kircher C.A., “Experimental study on the seismic behavior of industrial storage racks (Report no. 41)”, The John A. Blume Earthquake Engineering Center, Department of Civil Engineering, Stanford University, Stanford, 1979.

[13] Harris E., “Sway behavior of high rise steel storage racks”, Ph. D. Thesis, University of Sydney, Sydney, Australia, 2006.

[14] JIS, “JIS Z2241: Method of tensile test for metallic materials”, Japanese Industrial Standards Committee, Tokyo, Japan, 1998.

[15] ASTM, “A611: Standard Specification for Structural Steel (SS), Sheet, Carbon, Cold-Rolled”, ASTM American Society for Testing and Materials, PA, USA, 1997.

[16] ASTM, “A283: Standard Specification for Low and Intermediate Tensile Strength Carbon Steel Plates”, ASTM American Society for Testing and Materials, PA, USA, 2003.

[17] ASTM, “A36: Standard Specification for Carbon Structural Steel”, ASTM American Society for Testing and Materials, PA, USA, 2014.

[18] AS, “AS 4084: Steel storage racking”, Australian Standards, Sydney, Australia, 1993.

[19] FEM, “FEM 10.2.02: Recommendation for the design of steel pallet racking and shelving”, European Racking Federation, Birmingham, UK, 1998.

[20] RMI, “MH 16.1 - Specification for the design, testing and utilization of industrial steel storage rack”, RMI - Rack Manufactures Institute, Charlotte, USA, 2008.

[21] Huber G. and Tschemmernegg F., “Modeling of beam-to-column joints - Test evaluation and practical”, Journal of Constructional Steel Research, 45(2), 199-216, 1998.

[22] Faella C., Piluso V. and Rizzano G., “Structural steel semi-rigid connections – Theory, design and software”, CRC Press LLC, Boca Raton, Florida, USA, 2000.

[23] Pucinotti R., “Top-and-seat and web angle connections: prediction via mechanical model”, Journal of Constructional Steel Research, 57(6), 661-694, 2001.

[24] Silva L.S. and Coelho A.G., “A ductility model for steel connections”, Journal of Constructional Steel Research, 57(1), 45-70, 2001.

[25] Beg D., Zupancic E. and Vayas I., “On the rotation capacity of moment connections”, Journal of Constructional Steel Research, 60(3-5), 601-620, 2004.

[26] Zhao X., Dai L., Wang T., Sivakumaran K.S. and Chen Y., “A theoretical model for the rotational stiffness of storage rack beam-to-upright connections”, Journal of Constructional Steel Research, 133(6), 269-281, 2017.

[27] Asawasongkram N., Chomchuen P. and Premthamkorn P., “Mechanical modelling of beam-to-column connections of steel storage racks”, Journal of Constructional Steel Research, (to be submitted).

[28] Bursi O.S. and Jaspart J.P., “Calibration of a finite element model for isolated bolted end-plate steel connections”, Journal of Construction Steel Research, 44(3), 225-262, 1997.

[29] Applied Technology Council, “ATC-40 Seismic evaluation and retrofit of concrete buildings”, Redwood City, 1996.

[30] CSI, “SAP2000 - Linear and nonlinear static and dynamic analysis of three-dimensional structures”, Computer & Structures Inc., Berkeley, CA, USA, 2009.