A Rotary Tribological Behavior Simulation Test Bench Realizing Vibration Decoupling

Abstract

The invention discloses a rotary tribological behavior simulation test bench for realizing vibration decoupling, comprising a test bench base, a lower friction sample is arranged on the test bench base, and an upper friction sample is arranged above the lower friction sample. For the friction sample, a rotation system is provided between the lower friction sample and the base of the test bench, and the upper friction sample is connected with a loading system, and the loading system is provided with an acceleration sensor and a three-way force sensor. The invention sets the rotation system to drive the lower friction sample to rotate, sets the loading system to control the required friction contact load between the upper friction sample and the lower friction sample, and uses the non-contact working principle of the air bearing to control the structural resonance and vibration of the support device in the test. The interference signal caused by the vibration of the driving part and the self-excited vibration signal of the interface friction are decoupled, so as to study and analyze the influencing factors of the tribological behavior of the rotating friction pair interface, and explore the evolution law and control method of the rotating interface tribological behavior .

Description

technical field [0001] The invention belongs to the technical field of friction and vibration, and in particular relates to a rotary tribological behavior simulation test bench for realizing vibration decoupling. Background technique [0002] Friction is a very common phenomenon in daily life and engineering fields. For example, in practical applications such as machine tool processing systems, vehicle braking systems, and robot joint joint systems, there are parts that are in contact with each other and relatively moving. The contact of these parts The surface will thus generate friction, and exhibit different interfacial tribological behaviors and frictional self-excited vibrations. Strong friction self-excited vibration will increase the wear of parts, reduce the precision and reliability of mechanical equipment, lead to a greatly shortened service life, seriously affect the normal operation of equipment, and even cause serious safety accidents. Therefore, the friction s...

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Problems solved by technology

[0004] Aiming at the problem that the vibration interference signal caused by the non-friction interface will be superimposed on the self-excited vibration of the interface friction in the existing tribological behavior simulation test, and the problem that the tribological behavior of the friction pair interface cannot be accurately studied, the present invention provides a rotating The purpose of the tribological behavior simulation test bench is to realize the complete decoupling of the vibration interference signal generated by the non-friction interface and the self-excited vibration signal of the interface friction by using the air bearing with frictionless contact motion, so as to collect the self-excited vibration of the interface friction more accurately The generated characteristic parameters are used to accurately study the influencing factors and evolution laws of the tribological behavior of mechanical systems

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