SANLAB's Simulation tables, also known as Multi-Axis Shaker Tables (MAST), are advanced testing platforms that offer a full six degrees of freedom (6 DOF). These systems simulate a variety of acceleration and displacement scenarios, allowing engineers to reproduce data collected on proving grounds with high precision. With the capacity to mimic complex real-world conditions, they are indispensable tools for research, development, and reliability testing across numerous industries.
Simulation tables operate by moving in six different axes: forward-backward, left-right, up-down, and three rotational directions (roll, pitch, and yaw). This extensive range of motion provides a realistic simulation of physical forces, making these tables invaluable for applications like automotive testing, aerospace development, and industrial stress analysis.
• Six Degrees of Freedom (6 DOF): Enables comprehensive motion simulation, allowing for versatile testing scenarios.
• Integrated Control Systems: The hardware and software work in unison to ensure precise control and accurate test results.
• High Performance and Flexibility: These tables are designed to accommodate a wide range of testing needs, from simple vibration tests to complex dynamic simulations.
Simulation tables are used across a variety of industries for testing and validation:
• Automotive Testing: To simulate road conditions and evaluate vehicle components and systems.
• Aerospace Development: To mimic flight conditions and test aircraft performance.
• Industrial Applications: To simulate different environmental conditions for product reliability testing.
Simulation tables offer several benefits for research and development:
• Increased Reliability: By simulating real-world conditions, these tables help identify potential issues early in the development process.
• Reduced Development Time: Fast and accurate testing allows for quicker product iterations.
• Improved Product Quality: Detailed feedback helps engineers refine designs for better performance and durability.
Motion Tables come in a wide range of load capacities, from 50 kg to 14 tons, offering flexibility for various applications across different industries. These systems can be customized to suit specific requirements, making them ideal for a broad spectrum of testing scenarios.
Simulation tables can be tailored to different load capacities to meet specific testing needs. This range of options provides versatility for testing various sizes and weights of materials and components.
Simulation tables with light load capacities, starting from 50 kg, are designed for testing smaller-scale products and components. These are ideal for laboratory environments or facilities with limited space. Light-capacity tables are often used for testing electronic devices, small components, and lightweight structures.
For more robust testing requirements, simulation tables can be configured with load capacities of up to 14 tons. These tables are suitable for testing large industrial equipment, vehicles, structures, and more. The high-capacity tables are especially beneficial in the automotive, aerospace, and heavy industrial sectors.
The flexibility of tables allows for a range of customization options, including load capacity, degrees of motion, and control systems. This adaptability ensures that the simulation tables can be configured to suit the specific requirements of each project. Additionally, the materials and actuator types used in the table's design can also be customized.
Customizable simulation tables are valuable tools for optimizing testing and validation processes in various industries. The ability to adjust these tables to different needs makes them both flexible and efficient. Whether you're testing lightweight electronic devices or measuring the durability of large industrial machines, the customizable load capacities from 50 kg to 14 tons offer ideal solutions for a wide range of testing applications.
Established in 2009, SANLAB is a pioneer in its sector and offers unique solutions in the field of Real Time Robotic Applications.
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