The variable stiffness characteristic of the Rubber block vibration isolation hammer is one of its important properties, which is mainly reflected in the relationship between its load and deformation. The following is a detailed explanation of the variable stiffness characteristic of the Rubber block vibration isolation hammer:
1. Definition of variable stiffness characteristic
The variable stiffness characteristic of the Rubber block vibration isolation hammer refers to the change in its stiffness (i.e. the ability to resist deformation) when subjected to different loads. This characteristic enables the Rubber block vibration isolation hammer to maintain a good vibration isolation effect under different working conditions.
2. Performance of variable stiffness characteristic
Non-linear relationship: The load and deformation relationship of the Rubber block vibration isolation hammer presents a non-linear characteristic. This means that as the load increases, the deformation of the rubber block does not increase in a fixed proportion, but presents a gradual softening effect. This non-linear relationship enables the Rubber block vibration isolation hammer to effectively absorb and disperse energy when subjected to impact or vibration, thereby reducing the vibration level of the system.
Softening effect of stiffness: As the magnitude of external excitation increases, the "natural frequency" of the Rubber block vibration isolation hammer decreases. This is because the elastic deformation characteristics of rubber materials make its stiffness gradually decrease as the load increases. This gradual softening of stiffness helps to reduce the natural frequency of the system, thereby avoiding the occurrence of resonance and improving the vibration isolation effect.
3. Application of variable stiffness characteristics
The variable stiffness characteristics of Rubber block vibration isolation hammer are of great significance in practical applications. For example, in construction projects, due to the unevenness of the foundation and the uneven weight distribution of the building, the building will vibrate. By installing Rubber block vibration isolation hammer on the foundation of the building, the vibration level of the building can be effectively reduced and the living comfort can be improved. In addition, Rubber block vibration isolation hammer is also widely used in various transportation vehicles, bridges and other fields to reduce the impact of vibration and noise on the environment and human body.
In short, the variable stiffness characteristics of Rubber block vibration isolation hammer are one of its important properties and have broad application prospects. By deeply understanding the performance and application of its variable stiffness characteristics, its vibration isolation effect can be better exerted to provide a more stable and safe working environment for various equipment and buildings.