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Integrated solutions for in-line, longitudinal and transverse thickness control

We offer advanced solutions for the measurement and control of the thickness in the center line and of the transverse profile on the production lines by casting (casters) and cold reworking of aluminum. Thickness information is vital to be able to certify a product within certain imposed characteristics and to verify the proper functioning of the process line. Depending on the production requirement, we are able to provide systems that respond to operational needs, starting from simple single point control solutions, up to complex systems that they reconstruct the thickness trend of the transverse profile of the belt, using different types of scan and number of detection points.

  • Longitudinal thickness scanning
  • Transverse thickness scan
  • Longitudinal and transverse thickness scanning with single detection
  • Longitudinal and transverse thickness scanning with multiple detection

Centerline thickness control on aluminum strips / coils

Our systems are able to measure the thickness of aluminum strips with tenth of a micron accuracy, being equipped with totally digital and noise-free signal exchange and alloy compensation and automatic temperatures managed independently by the control software.


Automatic profile and edge drop control (crown, wedge, edge drop) on caster lines and casting lines

Our systems are able to perform cross-sectional scans according to different modes and architectures, from the simplest and most economical to advanced integrated solutions which allow instant monitoring of the trend of the cross profile thickness.


Automatic lamination control of aluminum foil (Foil Mills)

The feedback of our systems is commonly applied to the production of aluminum foil with target thickness equal to 7 microns for the production of thin aluminum films by lamination. The system adopts extremely accurate compensations of the chemical composition and of the variability of the alloy of the material and of the temperatures of both the material itself that of the air around the point of the measurement.