SMA Introduction
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
SMA Introduction 2
Fe-SMA provides shape memory behavior, high strength, good ductility, moderate yield ratio, and excellent low-cycle fatigue performance.
SMA Introduction 3
Its impact toughness remains good even at low temperature, and the damper hysteresis curve is full, providing strong seismic and energy-dissipation capacity.
SMA Introduction 4
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
SMA Introduction 5
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
SMA Introduction Reference Images
Connection Type
SMA dampers are essentially metal dampers, so their connection forms are consistent with MYD products, including wall-type and brace-type connections.
Connection Type 2
Wall-type layouts are flexible and coordinate well with architectural openings. Brace-type layouts use steel braces and connecting plates between beam-column joints.
Connection Type 3
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
Connection Type 4
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
Connection Type 5
A damper made from shape memory alloy materials that undergo reversible martensitic phase transformation under temperature and stress. Steel Damper uses Fe-SMA material in a shear-type damper.
Connection Type Reference Images