PERILAKU GESER BALOK CASTELLATED MODIFIKASI DENGAN PENYAMBUNG PROFIL SIKU

Various kinds of castellated beams (with circular, hexagonal, and rectangular openings) have been developed in order to optimize the use of structural steel profiles. In view of the limitations in the current production of high-effectivity castellated beams, their capacity has for a while undergone a stagnation as to the increase thereof. This thesis develops a type of modified castellated beam, formed from a straight-profile cut in the mid-section whereby the two resulting half-parts are connected by an angle shape steel member inclined at 45�, in such a way that the effective height of the beam can be readily increased. The structural behavior of the beam construct including displacement, stress, and strain responses along with the associated failure mechanism, is experimentally studied in the present thesis. modified castellated beam is composed of IWF structural steel with dimensions The 150x75x7x5 mm 3 horizontally divided into two parts, which, in turn, are connected by an angle shape steel member with dimensions 30x30x3 mm 2 , in such a way that the beam�s overall height is 275 mm with a span of 920 mm, referring to the beam dimensions found in previous. The set-up behind our experimentation utilizes two-point loading. The experiment ceases when the load has suffered 30% decrease with respect to Pmax. Based on this experiment and analysis, we conclude the followings: The shear behavior of the modified castellated beam is determined by the mechanism of compression of the angle shape connecting member