Un dispositif pour la caractérisation des propriétés amortissantes de matériaux viscoélastiques non-linéaires en cisaillementAn apparatus for the characterization of damping properties of non-linear viscoelastic sheared materials

In order to solve the problem that the photoelectric instrument may fail when the vibration response of the truss composite structure is too large, the method of applying the viscoelastic-constrained damping layer on the truss wall and the box panel is used to reduce the vibration of the whole structure. In this article, a broken long tube with viscoelasticconstrained damping layer is introduced. The long tube of the original structure is broken into two identical short tubes, and a tube with free damping layer is added to the junction of the two short pipes, which is connected by adhesive and broken long pipe. By analyzing the frequency response of the traditional space truss and spaceflight load structure, and a broken long tube structure, the acceleration response cloud diagram and the acceleration response curve of the fixed measuring node are obtained. Experiments were carried out to verify the feasibility of the structure. The test results show that the method of broken long pipe with viscoelastic-constrained damping layer can achieve better damping effect than the traditional truss structure, and it can effectively reduce the vibration level of the space load at the end of the truss, and has important reference significant for the vibration reduction design of other space structures.

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Design analysis and experimental verification of vibration reduction of spatial composite damping truss structure

Luo

Wang

et al. 2018

Advances in Mechanical Engineering

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Un dispositif pour la caractérisation des propriétés amortissantes de matériaux viscoélastiques non-linéaires en cisaillementAn apparatus for the characterization of damping properties of non-linear viscoelastic sheared materials

Cited by 1 publication

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Design analysis and experimental verification of vibration reduction of spatial composite damping truss structure

Design analysis and experimental verification of vibration reduction of spatial composite damping truss structure

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