Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a high-energy-consumption viscoelastic damping wall. The high-energy-consumption viscoelastic damping wall is characterized by comprising outer steel plates, a middle steel plate and high-energy-consumption viscoelastic bodies clamped between the steel plates; each high-energy-consumption viscoelastic body is connected with the steel plates on the two sides through a vulcanization process, and is formed by mixing a rubber material body and an additive material; one ends, extending out of the middle steel plate, of the two outer side steel plates are connected with an upper beam or a lower beam of a building structure, and one end, extending out of the two outer steel plates, of the middle steel plate is connected with the lower beam or the upper beam of the buildingstructure; and the parts, beyond the two transverse sides of the middle steel plate, of the two outer steel plates are fixed relatively through a plurality of positioning bolts. When the building structure is subjected to interlayer deformation, the viscoelastic bodies clamped between the damping wall steel plates fixed between the upper beam and the lower beam generates shear deformation, and vibration energy of the building is converted into heat energy through hysteretic energy consumption of the viscoelastic material, so that the purpose of inhibiting vibration of a shock absorber is achieved.
本发明公开了高耗能粘弹性阻尼墙,其特征在于:包括外侧钢板、中间钢板以及被夹持在钢板中间的高耗能粘弹性体;所述高耗能粘弹性体通过硫化工艺与两侧钢板连接,高耗能粘弹性体由橡胶材料本体及添加材料混炼而成;两外侧钢板伸出中间钢板的一端与建筑结构上梁或下梁连接,中间钢板伸出两外侧钢板的一端与建筑结构下梁或上梁连接;两外侧钢板在超出所述中间钢板横向两侧的部分,通过若干定位螺栓进行相对位置固定。在建筑物结构发生层间变形时,固定在上下梁间的阻尼墙钢板中间所夹的粘弹性体产生剪切变形,通过粘弹性材料的滞回耗能,将建筑物的震动能量转换为热能,从而实现抑制减震物震动的目的。
The invention discloses a high-energy-consumption viscoelastic damping wall. The high-energy-consumption viscoelastic damping wall is characterized by comprising outer steel plates, a middle steel plate and high-energy-consumption viscoelastic bodies clamped between the steel plates; each high-energy-consumption viscoelastic body is connected with the steel plates on the two sides through a vulcanization process, and is formed by mixing a rubber material body and an additive material; one ends, extending out of the middle steel plate, of the two outer side steel plates are connected with an upper beam or a lower beam of a building structure, and one end, extending out of the two outer steel plates, of the middle steel plate is connected with the lower beam or the upper beam of the buildingstructure; and the parts, beyond the two transverse sides of the middle steel plate, of the two outer steel plates are fixed relatively through a plurality of positioning bolts. When the building structure is subjected to interlayer deformation, the viscoelastic bodies clamped between the damping wall steel plates fixed between the upper beam and the lower beam generates shear deformation, and vibration energy of the building is converted into heat energy through hysteretic energy consumption of the viscoelastic material, so that the purpose of inhibiting vibration of a shock absorber is achieved.
本发明公开了高耗能粘弹性阻尼墙,其特征在于:包括外侧钢板、中间钢板以及被夹持在钢板中间的高耗能粘弹性体;所述高耗能粘弹性体通过硫化工艺与两侧钢板连接,高耗能粘弹性体由橡胶材料本体及添加材料混炼而成;两外侧钢板伸出中间钢板的一端与建筑结构上梁或下梁连接,中间钢板伸出两外侧钢板的一端与建筑结构下梁或上梁连接;两外侧钢板在超出所述中间钢板横向两侧的部分,通过若干定位螺栓进行相对位置固定。在建筑物结构发生层间变形时,固定在上下梁间的阻尼墙钢板中间所夹的粘弹性体产生剪切变形,通过粘弹性材料的滞回耗能,将建筑物的震动能量转换为热能,从而实现抑制减震物震动的目的。
High-energy-consumption viscoelastic damping wall and manufacturing method thereof
高耗能粘弹性阻尼墙及其制造方法
YUAN YONG (Autor:in)
14.04.2020
Patent
Elektronische Ressource
Chinesisch
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