BMT-ST/E – SERVO ELECTROMECHANICAL SHAKING TABLE SYSTEM
BMT-ST Shaking Table is designed to perform earthquake simulation in a workshop or lab to test earthquake effects on different products. In has a rigid base frame and a moving table that is connected with an Electro-Mechanical actuator controlled by BESMAK® dynamic controller and simulation software.
BESMAK® Seismic Simulators Across the globe, civil engineering researchers rely on BESMAK simulation technology and expertise to accurately replicate earthquake ground motions in laboratory settings. They deploy BESMAK® seismic simulators to evaluate the behavior of everything from small structural components to fullscale structures under true earthquake conditions. This robust uni-axial and multi-axial systems help governments and research organizations ensure the safety, durability and reliability of buildings, bridges and a wide array of other civil structures.
Standards:
- EN 13597
- Biaxial bridge testing
- Uniaxial wall testing
- Seismic isolator testing
- Capacity: Up to 50 kN
- Load accuracy class: 0.5%
- Position resolution: 0.1 μm
- Special BESMAK® dynamic controller and simulation software
- Servo-Hydraulic or/and Electro-Mechanical actuators
- Dynamic speed up to 1000 mm/s
- Heavy duty and reliable
- Easy to operate, control with computer and remote control
| Product Code | Product Name |
|---|---|
| BMT-0.2ST/E | Servo Electromechanical Shaking Table System with 0,2 kN Payload Capacity |
| BMT-1ST/E-0.5×0.5 | Servo Electromechanical Shaking Table System with 1 kN Payload Capacity, 0.5m x 0.5m |
| BMT-5ST/E | Servo-Electromechanical Shaking Table System with 5 kN Payload Capacity |
| BMT-10ST/E | Servo Electromechanical Shaking Table System with 10 kN Payload Capacity |
| BMT-50ST/E | Servo Electromechanical Shaking Table System with 50 kN Payload Capacity |
BESMAK® SPECIAL-PURPOSE SEISMIC SIMULATOR SYSTEMS
BESMAK® Special-purpose Seismic Simulators are designed to evaluate specimens that are either too large for other simulators or specimens that can be evaluated with fewer degrees of freedom. A Special-purpose simulator can be more economical than a full six degree of freedom system.
