Numerical Investigation of Ring Shaped Steel Plate Shear Wall with Concrete Filled Steel Box Colum as a Vertical Boundary Element

Authors

Faculty of Engineering Department, Islamic Azad University- Chalous Branch, Chalous, Iran

Abstract

Steel shear is one of the many types of side loading systems that is being used in the building industry. The proper performance of the steel shear wall, which is based on the expansion of the tensile field, is largely dependent on the boundary elements including beams and columns. In other words, in the process of energy depreciation, during the surrender of a thin sheet of paper, considerable forces will enter the boundary elements. Therefore, in order to have a well-functioning steel shear system structure, the boundary elements, especially the pillars, must have elastic behavior. In this paper, for the control of the elastic behavior of the columns, the use of columns with steel canisters filled with concrete as a boundary element, as well as roller panels, is proposed as a die sheet. In order to control the elastic behavior of the column, the outflow of the adjacent wing of the filler sheet has been investigated. It can be seen that the use of loop-shaped sheets has a significant effect on the reduction of pillar elongation.

Keywords


AISC341-10, “Seismic provisions for structural steel buildings”, American Institute of Steel Construction, 2005.
Berman J, Bruneau M, “Plastic analysis and design of steel plate shear walls”, Journal of Structural Engineering, 2003, 129 (11), 1448-1456.
Berman JW, Bruneau M, “Experimental Investigation of Light-Gauge Shear Walls for Seismic Retrofit of Buildings”, Technical Report MCEER-03-00001, University of Buffalo, 2003.
Dassault, Abaqus version 6.13 Documentation, 2013.
Egorova N, “Experimental study of ring-shaped steel plate shear walls”, M.S. thesis, Virginia Tech, Blacksburg, VA, 2013.
Egorova N, Eatherton MR, Maurya A, “Experimental study of ring-shaped steel plate shear walls”, Journal of Constructional Steel Research, 2014, 103, 179-189.
Eurocode 4, “Design of composite steel and concrete structures”, Part 1.1, General Rules and Rules for Building, DD ENV, 1994.
Jamshidi M, Majid TA, Bunnori NM, “Seismic behavior of slab-on-girder steel bridge equipped with ductile steel infill plate end diaphragms”, International Journal of Steel Structures, 2015, 15 (2) 459-472.
Koppal M, “Computational investigation of tunable steel plate shear walls for improved seismic resistance”, M.S. Thesis, Virginia Tech, Blacksburg, VA, 2012.
Li CH, Tsai KC, Huang HY, Tsai CY, Lin CH, “Experimental investigations on steel plate shear walls using box columns with or without infill concrete”, Proceeding of the 10th National Conference in Earthquake Engineering, Earthquake Engineering Research Institute, Anchorage, AK, 2014.
Li CH, Tsai KC, “Experiment response of four 2-story narrow steel plate shear walls”, Structures Congress 2008, ASCE 2008.
Lin CH, Tsai KC, Qu B, Bruneau M, “Sub-structural pseudo-dynamic performance of two full-scale two-story steel plate shear walls”, Journal of Constructional Steel Research, 2010, 66 (12), 1467-1482.
Maurya A, “Computational simulation and analytical development of buckling resistant steel plate shear wall (BR-SPSW)”, M.S. thesis, Virginia Tech, Blacksburg, VA, 2012.
Phillips A, “Large-scale cyclic testing and development of ring shaped steel plate shear walls for improved seismic performance of buildings”, Ph.D. Dissertation, Virginia Tech, Blacksburg, VA, 2016.
Phillips AR, Eatherton MR, “Computational study of elastic and inelastic ring shaped steel plate shear wall behavior”, Eng. Struct. 177, 2018, 655-677.
Phillips AR, Eatherton MR, “Large-scale experimental study of ring shaped steel plate shear walls”, Journal of Struct. Eng ASCE. 2018, 144 (8), 04018106.
Purba R, Bruneau M, “Design recommendation for perforated steel plate shear walls”, Technical Report MCEER-07-0011, University of Buffalo, 2007.
Qu B, Bruneau M, Lin CH, Tsai KC, “Testing of full scale two-story steel plate shear wall with reduced beam sections connections and composite floors”, Journal of Structural Engineering, ASCE; 2008, 134 (3), 364-373.
Que B, Bruneau M, Lin C, Tsai K, “Experimental investigation of full-scale two-story steel plate shear walls with reduced beam section connections”, Technical Report MCEER-08-0010, University of Buffalo, 2008.
Sabelli R, Bruneau M, “Design Guide 20: Steel plate shear walls”, American Institute of Steel Construction, 2006.
Tsai KC, Li CH, “Cyclic tests of four two-story narrow steel plate shear walls”, Part 1: analytical studies and specimen design, Journal of Earthquake Engineering and Structural Dynamics, 2009, 39, 775-799.
Tsai K, Li C, Lee H, “Seismic design and testing of the bottom vertical boundary elements in steel plate shear walls”, Part 1: Design methodology, Earthquake Engineering and Structural Dynamics, 2014, 43 2237-2259.
Wu MH, “Numerical analysis of concrete filled steel tubes subjected to axial force”, M.S. thesis, Dept. of Civil Engineering, National Cheng Keng University, Tainan, Taiwan. R.O.C., 2000.