EFFICIENT STEEL FRAME STRUCTURE OF MULTI-STOREY BUILDING
DOI:
https://doi.org/10.31650/2707-3068-2024-28-162-171Abstract
Currently, many buildings in Ukraine are affected by significant dynamic loads
associated with military operations on the territory of the country. In practice, this can lead to the
so-called progressive destruction, however, unlike static loads, shock-explosive loads require an
assessment of not only the mechanical characteristics of the building, but also an assessment of its
own dynamic characteristics. Such characteristics traditionally include the spectrum of natural
frequencies and the forms of oscillations corresponding to them. However, the assessment of
dynamic characteristics must be preceded by an assessment of the static performance of the
building.
Unfortunately, the specialized professional and reference literature lacks data on the dynamic
operation of most types of buildings, including multi-story buildings with a steel frame. Therefore,
such a task will be formulated and solved in the course of research. The obtained results of the static
analysis confirmed the correctness of the accepted cross-sections of the main load-bearing elements
of the steel frame of the building. The outermost columns of the frame were the most loaded, the
cross-sections of which were recommended to be increased. As additional recommendations, it was
proposed to replace rolled profiles with universal welded ones made of hot-rolled sheet steel. This
will simplify the construction of nodal connections of the frame, which, in turn, will increase the
level of its overall reliability. The dynamic analysis made it possible to reveal a rather dense
spectrum of the lower natural frequencies of the frame, which lie in the range of up to 5 Hz. The
corresponding lower forms of self-oscillations include the entire steel frame of the building in the
work, which helps to reduce the amplitudes of its oscillations.




