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Tag: high-rise buildings

The Tag of high-rise buildings

  • One shot! Revealing how high-rise buildings rely on viscous dampers to withstand earthquake shocks

    One shot! Revealing how high-rise buildings rely on viscous dampers to withstand earthquake shocks

    Viscous Damper Installation

    As shock absorption technology matures, the use of dampers is increasing. Viscous dampers can be used in buildings and bridges, and are divided into energy dissipation dampers and viscous fluid dampers. Today, let us follow the camera to find out how high-rise buildings use this black technology, viscous dampers, to calmly resist the shock of earthquakes.


    Defender of the City

    In the battle between nature and human civilization, buildings are the eternal front line. Viscous dampers are the secret weapons behind these buildings.

    Technology Revealed: The Secret of Viscous Dampers

    The scene switches to the laboratory, where researchers are conducting various tests on viscous dampers. When an earthquake occurs, it can effectively slow down the shaking of buildings and reduce the risk of structural damage. The camera captures the slow flow of fluid inside the damper, visually showing its working principle.

    Then, the camera turned to the busy construction site. In the sky, engineers were carefully hoisting the huge damper to the predetermined position. The workers cooperated perfectly, and a series of complex hoisting and fixing actions were completed in one go under the camera, which was breathtaking.

    At the climax of the video, engineers launch simulated earthquake tests. As the simulator started, the building began to shake violently, but soon the viscous dampers came into play. Under the lens, the fluid flow inside the damper intensifies, as if it is silently swallowing every trace of vibration energy. The shaking amplitude of the building is significantly reduced and the stability is significantly improved.

    Future Outlook

    In the future, with the continuous advancement of technology, I believe that more innovative earthquake-resistant technologies will emerge, making our cities more resilient and our lives more secure. “As the screen gradually darkens, the video ends with a line of subtitles: “Technology builds dreams, safety goes hand in hand. Viscous dampers protect urban safety.” This is not only a display of technology, but also an expectation for the future and a vision of the beautiful vision of harmonious coexistence of human wisdom and nature.

  • Hebei Shangze will focus on building dampers in May 2024, putting invisible armor on high-rise buildings

    Hebei Shangze will focus on building dampers in May 2024, putting invisible armor on high-rise buildings

    1. Definition of Building Damper

    architecture Damper It is a device specially designed to reduce the vibration and shaking of buildings when they are subjected to external dynamic loads such as earthquakes and strong winds. They absorb and consume the kinetic energy of the structure, effectively reduce the dynamic response of the building, protect the building structure and its internal facilities from damage, and enhance the sense of security and comfort of the residents or users. The working principle of building dampers is mainly to provide movement resistance, convert the energy accumulated by the structure due to external forces into heat energy or other forms of energy dissipation, thereby reducing the vibration amplitude.


    2. The role of building dampers

    The main function of building dampers is to stabilize buildings by adjusting and reducing the vibration amplitude of buildings in the event of natural disasters such as earthquakes or man-made vibrations. At the same time, it can also reduce the vibration of buildings in environmental factors such as turbulence and wind.


    3. Several common types of dampers include:

    1. Liquid damper: uses the viscous force generated by the flow of special liquid through small holes to dissipate energy.

    2. Gas damper: absorbs energy through the process of gas compression or expansion.

    3. Electromagnetic damper: uses the principle of electromagnetic induction to convert mechanical energy into electrical energy, and then into thermal energy.

    4. Viscous damper: contains viscous liquid and movable parts, and the shear force of the liquid consumes energy during movement.


    5. Friction damper: dissipates energy through friction between solids.


    IV. Conclusion

    Building dampers are a very important earthquake-proof measure that can ensure the safety of buildings. This article introduces the definition, function and common types of building dampers. In actual construction, the appropriate damper type should be selected according to the specific situation to improve the earthquake resistance of the building.

    With the advancement of technology, building dampers have become an indispensable part of the design of modern high-rise buildings and large structures, and are of great significance for improving the disaster resistance and sustainability of urban buildings.


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