There is a big variety of machines and equipment – internal combustion engines, aviation
parts, building frames - joined by threaded joints, realized as bolt, nut and pin ones. For successful
and safe exploitation of such equipment, it is required to check the tightening degree of threaded
joints. There are few known methods of such control and one is presented in this paper. The
proposed method is based on contact stiffness and friction change from thread tightening degree. At
the same time, tightening changes with sufficient significance the dynamical properties of such a
system - natural and resonance frequencies, amplitude – frequency and amplitude-phase
characteristics, so, that it is possible to evaluate the tightening degree of the investigated joint.
Dynamic properties are defined by exciting transient process between bolt head and tightened by
this bolt detail using as short as possible force impact. Sensors register analogical signal of transient
process and transmit it to a special computer card. The computer card converts analogical signal to
code. Code is saved in the computer file for further processing. Processing data is saved in this file,
and we find desired dynamical characteristics. Using special experimental bench proved that
dynamic characteristics are sensitive enough to threaded joint tightening degree and the method is
applicable to practice.
Analysis of error influence in tooth direction upon combined cog-wheels accuracy
