The paper disccuses an analysis study on the design of Eccentrically Braced Frame (EBF) i.e. short link, intermediate link and long link) with K-Braces-type Split 1 floor. The analysis is performed by using ABAQUS with static monotonic loading in a single structure (frame). Each element of the frame is modeled as sholid 3D with connections to every element in the form of tie constraints and given fixed on each base of the column as a boundary condition. All three models of the frame has been analyzed in accordance with the AISC 2010 provisions and then compared the behavior of each of these models. The results indicate that the short link model considered in this study have on a higher over strength value and used as a proposed model when compared to intermediate link and long link model. It is stated by the failure mechanism as well, the failure is well-occurred in the short link condition than the other models

Daneshmand, Ardeshir, dan Behrokh H. Hashemi. (2011), “Performance of Intermediate and Long Links in Eccentrically Braced Frames”. Journal of Constructional Steel Research, 70 (11) : 167-176.

Engelhardt, Michael D. (2007), “Design of Seismic-Resistant Steel Building Structrues”. AISC Module for Teaching the Principles of Seismic-Resistant Design of Steel Building Structures, American Institute of Steel Construction, Chicago, Illinois.

Ricles, James M., dan Egor P. Popov. (1994), “Inelastic Link Element for EBF Seismic Analysis”. Journal of Structural Engineering, 120 (2): 441-463.

Popov. Egor P., Kazuhiko Kasai, dan Michael D. Engelhardt. 1987. “Advances in Design of Eccentrically Braced Frames”. Buletin of the New Zealand National Society for Earthquake Engineering, Vol. 20, No. 1, Maret.

Richards, Paul W., dan Chia-Ming Uang. (2005), “Effect of Flange Width-Thickness Ratio on Eccentrically Braced Frames Link Cyclic Rotation Capacity”. Journal of Structural Engineering, 131 (10): 1546-1552.

Bruneau, Michel, Chia-Ming Uang, dan Rafael Sabbelli. (2011), “Ductile Design of Steel Structures – Second Edition”. McGraw-Hill Companies, Inc., United States of America.

Musmar, M.A. 2012. “Effect of Link on Eccentrically Braced Frames”. Journal of Engineering Sciences, Assiut Universiy. Vol 40, 1 (1): 35-43.

Hashemi, Seyed H. (2011), “Ductility and Ultimate Strength of Eccentric Braced Frame”. Proceeding of International Conference on Advanced Materials Engineering, Kairo, Mesir, 1-3 Oktober.

Berman, Jeffrey W., Taichiro Okazaki, dan Heidrun O. Hauksdottir. (2010), “Reduced Link Sections for Improving the Ductility of Eccentrically Braced Frame Link-to-Column Connections”. Journal of Structural Engineering, 136 (5) : 543-553.

ANSI/AISC, 341-10. (2010), “Seismic Provisions for Structural Steel Buildings”. American Institute of Steel Construction, Chicago, Illinois.