用结构钢和形状记忆合金作为基础隔振器的U型阻尼器分析

Journal of Recent Activities in Infrastructure Science Pub Date : 2023-04-15 DOI:10.46610/jorais.2023.v08i01.004

Sona Jose K, A. S

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引用次数: 0

摘要

基础隔震系统可以在最大地震评估期间承受显著的地面振动。在阻尼系统中添加了一种称为形状记忆合金(SMA)的新型材料，以提高隔震轴承的性能并减少残余变形。sma是一种有效的材料，能够被加载或加热，然后恢复到其初始状态和预设。研究首先利用ANSYS 2023R1软件对单个钢板阻尼系统进行了循环载荷试验，其中包括用于u型阻尼器的形状记忆合金和结构钢(SS)。在85.75 mm和116 mm两种不同半径处对sma和钢结构阻尼系统进行了评价。在循环荷载作用下，u型阻尼器能承受来自上部结构的显著垂直荷载。UDs主要通过迟滞行为损失能量。研究结果表明，对于半径增大的SS UD和半径减小的SMA UD，效果都很好。SMA UD的磁滞回线显示出最大的能量损失和弹簧作用。

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Analysis of U – Shaped Damper Using Structural Steel And Shape Memory Alloy As Base Isolators

Base isolation systems are built to withstand significant ground vibrations during maximum assessed earthquakes. A novel material called Shape Memory Alloy (SMA) was added to the damping system to increase the performance of isolation bearings and reduce residual deformation. SMAs are effective materials that are capable of being loaded or heated and then restored to their initial state and preset. The investigation begins with a cyclic load test utilizing the ANSYS 2023R1 software on individual steel plate damping systems that include both shape memory alloys and structural steel (SS) for U-shaped dampers. Evaluation of damping systems using SMAs and structural steel at two different radii of 85.75 mm and 116 mm was done. Under cyclic loading, U-shaped dampers can sustain significant vertical loads from the superstructure. UDs mostly lose energy through hysteresis behaviour. The findings demonstrate that great performance was seen for SS UD with an enlarged radius and SMA UD with a decreased radius. SMA UD's hysteresis loop displayed the greatest amount of energy loss and spring action.

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Journal of Recent Activities in Infrastructure Science

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