Sistem Steel Plate Shear Wall (SPSW) adalah sebuah sistem struktur yang mampu menunjukkan deformasi kekakuan awal yang tinggi, berperilaku daktail, dan mendisipasi energi yang besar, sehingga cocok menjadi sistem penahan gempa yang besar. Pelepasan pelat pengisi pada kolom dapat menguntungkan karena kemungkinan kegagalan awal yang terjadi pada kolom dapat diminimalisir. Untuk meningkatkan gaya geser dan disipasi energi maka perlu adanya penambahan pelat pengaku pada elemen shearwall. Pada penelitian ini dilakukan pengujian terhadap beberapa model konfigurasi pelat pengaku yaitu diantaranya; berbentuk cross dan strip model. Hasil pengujian yaitu berupa; diagram kurva histeresis, pola deformasi pelat, kapasitas disipasi energi dan kapasitas gaya geser. Penelitian ini menggunakan metode elemen hingga dengan program bantu ABAQUS. Hasil penelitian menunjukkan bahwa penambahan pelat pengaku pada daerah TFA (tension field action) memiliki pengaruh yang sangat signifikan dalam meningkatkan kekakuan awal yang baik, meningkatkan kapasitas gaya geser dan menghasilkan disipasi energi yang sangat baik.

steel plate shearwall, horizontal boundary element, strip model, stiffeners

A. S. Lubell, et al, “Performance of Unstiffened Steel Plate Shear Walls Under Cyclic Quasi-Static Loading,” Journal of Structural Engineering, vol.126, no. 4, Apr. 2000.

S. J. Chen and C. Jhang, “Experimental study of low-yield-point steel plate shear wall under in-plane load,” J Constr Steel Res, vol. 67, no. 6, pp. 977–985, Jun. 2011.

J. W. Berman and M. Bruneau, “Capacity Design of Vertical Boundary Elements in Steel Plate Shear Walls”, Engineering Journal, American Institute of Steel Construction, Vol. 45, 2008.

B. Qu, M. Asce, and M. Bruneau, “Capacity Design of Intermediate Horizontal Boundary Elements of Steel Plate Shear Walls”, Journal of Structural Engineering, vol. 136, 2010.

Y. Zhang and X. Zhan, “Study on Seismic Behavior of Steel Frame-Steel Shear Wall with Assembled Two-Side Connections,” Mathematical Problems in Engineering, vol. 2019, 2019.

Y. Ozcelik and P. M. Clayton, “Strip model for steel plate shear walls with beam-connected web plates,” Engineering Structures, vol. 136, pp. 369–379, Apr. 2017.

C. Vatansever and N. Yardimci, “Experimental investigation of thin steel plate shear walls with different infill-to-boundary frame connections,” Steel and Composite Structures, vol. 11, no. 3, pp. 251–271, 2011.

P. M. Clayton, “Self-Centering Steel Plate Shear Walls: Subassembly and Full-Scale Testing.”

M. Wang, X. Zhang, L. Yang, and W. Yang, “Cyclic performance for low-yield point steel plate shear walls with diagonal T-shaped-stiffener,” J Constr Steel Res, vol. 171, Aug. 2020.

Y. Ozcelik, “Expeditious strip model for steel plate shear walls with beam-connected web plates,” J Constr Steel Res, vol. 184, Sep. 2021.

Lanhui Guo, Ran Li, and Guirong Yan, “Hysteretic Analysis of Steel Plate Shear Walls (SPSWs) and A Modified Strip Model for SPSWs”, Advances in Structural Engineering, vol. 15, no. 10, Feb. 2012.

J. J. Shishkin, R. G. Driver, M. Asce, and G. Y. Grondin, “Analysis of Steel Plate Shear Walls Using the Modified Strip Model”, Journal of Structural Engineering, vol. 135, no.11, Nov. 2009.

L. Guo, Q. Rong, X. Ma, and S. Zhang, “Behavior of steel plate shear wall connected to frame beams only,” International Journal of Steel Structures, vol. 11, no. 4, pp. 467–479, Dec. 2011.