Vibration testing involves subjecting a component or device to simulated shocks to assess its performance in real-world conditions. The applications of vibration testing are vast, covering industrial products like circuit boards, aircraft, ships, rockets, missiles, automobiles, and even household appliances.
Vibration test systems are ubiquitous, but have you ever considered how to select the right one for your needs? Imagine finding the ideal vibration test system perfectly tailored to you. Let’s embark on this exciting journey together to discover how to make the best choice!
To calculate the thrust of a vibration table, you can use the formula: F = M × A. Here, F is the thrust, M is the total weight (which includes the sample weight, the weight of the work platform or jigs, and the weight of the moving coil specific to the model), and A is the maximum acceleration of the test.
For example, if your machine has a maximum thrust of 4 tons (4000 kg.f), this is its ultimate theoretical capacity. However, to ensure safety during testing, you should reserve a safety margin, typically using 75%-85% of the maximum thrust. It's recommended to use no more than 80%, which means you should aim for a maximum thrust of 3200 kg.f (4000 kg.f × 80%).
When conducting a test with an acceleration of 10g, you can calculate the maximum test mass like this:
M = F/A = 3200 kg.f / 10g = 320 kg.
This means the total weight—including the sliding table, moving coil, and test piece—should not exceed 320 kg.
For instance, the HG120 sliding table weighs about 165 kg, and the moving coil weighs 35 kg, making the combined weight of the sliding table and moving coil 200 kg. Therefore, when using the HG120 slide table with a 4-ton capacity, the maximum test mass you can load is:
320 kg - 200 kg = 120 kg.
Lastly, remember that the upper limit of the test frequency depends on the maximum frequency that the sliding table can handle.
If you’re eager to learn more about vibration test systems, don’t hesitate to reach out to Sinuo! Our team is ready to offer you expert insights and tailored solutions that will elevate your projects. Let’s connect and explore the possibilities together!
Vibration testing involves subjecting a component or device to simulated shocks to assess its performance in real-world conditions. The applications of vibration testing are vast, covering industrial products like circuit boards, aircraft, ships, rockets, missiles, automobiles, and even household appliances.
Vibration test systems are ubiquitous, but have you ever considered how to select the right one for your needs? Imagine finding the ideal vibration test system perfectly tailored to you. Let’s embark on this exciting journey together to discover how to make the best choice!
To calculate the thrust of a vibration table, you can use the formula: F = M × A. Here, F is the thrust, M is the total weight (which includes the sample weight, the weight of the work platform or jigs, and the weight of the moving coil specific to the model), and A is the maximum acceleration of the test.
For example, if your machine has a maximum thrust of 4 tons (4000 kg.f), this is its ultimate theoretical capacity. However, to ensure safety during testing, you should reserve a safety margin, typically using 75%-85% of the maximum thrust. It's recommended to use no more than 80%, which means you should aim for a maximum thrust of 3200 kg.f (4000 kg.f × 80%).
When conducting a test with an acceleration of 10g, you can calculate the maximum test mass like this:
M = F/A = 3200 kg.f / 10g = 320 kg.
This means the total weight—including the sliding table, moving coil, and test piece—should not exceed 320 kg.
For instance, the HG120 sliding table weighs about 165 kg, and the moving coil weighs 35 kg, making the combined weight of the sliding table and moving coil 200 kg. Therefore, when using the HG120 slide table with a 4-ton capacity, the maximum test mass you can load is:
320 kg - 200 kg = 120 kg.
Lastly, remember that the upper limit of the test frequency depends on the maximum frequency that the sliding table can handle.
If you’re eager to learn more about vibration test systems, don’t hesitate to reach out to Sinuo! Our team is ready to offer you expert insights and tailored solutions that will elevate your projects. Let’s connect and explore the possibilities together!