Under extreme loading conditions such as an earthquake event considerable
amount of energy is imparted to a structure. To protect the structure and to minimize
damages, a method is to divert a portion of the input energy into designated energy
dissipating devices. A new energy dissipation device is presented in this paper. The
device is referred to as Buckling-Restrained-Lug (BRL) which can be incorporated in
structural joints. The device is composed of a short segment of a steel strut embedded
inside a mortar filled jacket which makes the BRL’s capacity governed by the squash
load under axial tension or compression. The BRL dissipates energy through axial
yielding of the steel strut. Analytical, finite element modeling and experimental results
of the proposed BRL are presented and compared. Implementation of the BRL in a
beam-to-column connection that results in a dissipative partial-moment-resisting joint
is proposed. Based on the obtained results, the paper advocates the consideration of the
BRL as a viable, compact and low-cost passive energy dissipation device.