Extensometer mtsmail

An extensometer is a device used to measure the deformation or strain of a material, such as a metal or a composite, under various types of loading, such as tension, compression, or bending. MTS (Mechanical Testing Systems) is a well-known company that manufactures a range of extensometers for various applications.

Here are some key features and benefits of MTS extensometers:

  1. High accuracy: MTS extensometers are designed to provide high accuracy and precision in measuring deformation, with an accuracy of ±0.01% of the measured value.
  2. Wide range of applications: MTS extensometers are suitable for a wide range of applications, including materials testing, research and development, quality control, and production testing.
  3. Various types of loading: MTS extensometers can measure deformation under various types of loading, including tension, compression, bending, and torsion.
  4. High-speed testing: MTS extensometers can be used for high-speed testing, allowing for the measurement of deformation at high rates of loading.
  5. Digital readout: MTS extensometers typically have a digital readout, making it easy to read and record the measured data.
  6. Calibration: MTS extensometers are calibrated to ensure accuracy and precision, and can be recalibrated as needed.

Some common types of MTS extensometers include:

  1. Clip-on extensometers: These are designed to be attached to the specimen using clips or clamps.
  2. Bolt-on extensometers: These are designed to be attached to the specimen using bolts or screws.
  3. Wire extensometers: These use a wire or fiber optic cable to measure deformation.
  4. Optical extensometers: These use optical techniques, such as interferometry or moiré interferometry, to measure deformation.

MTS extensometers are widely used in various industries, including:

  1. Aerospace: To test the properties of materials used in aircraft and spacecraft.
  2. Automotive: To test the properties of materials used in vehicle components, such as tires and suspension systems.
  3. Biomedical: To test the properties of biomaterials, such as implants and surgical meshes.
  4. Energy: To test the properties of materials used in energy applications, such as wind turbines and solar panels.
  5. Materials science: To study the properties of materials and their behavior under various types of loading.

Overall, MTS extensometers are an essential tool for measuring deformation and strain in various materials and applications, and are widely used in research and development, quality control, and production testing.