The Quanser Active Mass Damper (AMD) is a bench-scale model of a tall building equipped with an active damper. It is ideal for studying the dynamic response of tall structures to high winds, seismic ground effects, and other disturbances, and for investigating control techniques to actively dampen the deflection of structures.
Earthquake Engineering
Structural Dynamics & Earthquake Engineering
Ideal platforms to re-create seismic activities
A variety of shake tables and smart structure systems – complete with powerful and flexible software – to satisfy your teaching and research needs.
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The Hexapod stands as a compact and robust six degrees of freedom parallel robotic motion platform, capable of high-acceleration movement handling up to 100 kg. Distinguishing itself from conventional Stewart platforms, this Hexapod utilizes advanced electrical motors, ensuring precision, responsiveness, and minimal maintenance.
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The Quanser Shake Table I-40, an open architecture bench-scale single-axis earthquake simulator, is ideal for teaching structural dynamics and control, earthquake engineering, and other control topics related to civil engineering. With pre-loaded acceleration profiles of real earthquakes, such as Northridge and El-Centro, students can study the effects on buildings, bridges, and various materials.
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The Quanser Shake Table II is a mid-size open-architecture single-axis earthquake simulator ideal for teaching structural dynamics, vibration isolation, feedback control, and other control topics related to earthquake, aerospace and mechanical engineering.
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The Shake Table II XY consists of two single-axis Shake Table II units mounted perpendicularly on top of each other. Each stage can travel ±7.6 cm. Driven by powerful motors, the Shake Table II XY can achieve an acceleration of 2.5 g when loaded with a 7.5 kg mass.
