Data to be processed: Difference between revisions

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*Tool materials and coatings
*Tool materials and coatings
*Workpiece materials
*Workpiece materials
*Workpiece cleanliness
*Room temperature
*Room temperature
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The categorisation depends on the concept and complexity of the machine. Modern FSW machines provide close-loop force and position control algorithms, which complicate the distinction between parameters and variables. Some machines use the temperature as a parameter that can be set, e.g. to change the parameters if the tool gets too hot.
The categorisation depends on the concept and complexity of the machine. Modern FSW machines provide close-loop force and position control algorithms, which complicate the distinction between parameters and variables. Some machines use the temperature as a parameter that can be set, e.g. to change the parameters if the tool gets too hot.


Please feel free to improve the classification above or to propose an alternative classification.
Please feel free to improve the classification above or to propose an alternative classification.

Revision as of 15:50, 29 April 2021

The aiCAMstir project investigates Artificial Intelligence based Computer Aided Manufacturing of Friction Stir Welds

Data to be processed in the aiCAMstir project are parameters, variables, boundary values and quality.

Data to be processed in the aiCAMstir project are parameters, variables, boundary values and quality.

According to digitalisation and data processing experts, the following categorisation of key data could be considered:

Parameters Variables Boundry Values Quality
Values that you set Values that result during welding Values that affect the results Quality
  • Rotation speed
  • Welding speed
  • Spindle torque
  • Tool tilt angle
  • Tool temperature
  • Clamping forces
  • Tool design
  • Tool materials and coatings
  • Workpiece materials
  • Workpiece cleanliness
  • Room temperature
  • Tensile strength
  • Elongation
  • Visual appearance
  • Fatigue strength
  • Voids (pores)
  • Weld depth
  • Lack of penetration
  • Bend test results
  • Cracks
  • Inclusions
  • Helium-tightness
  • Tool position
  • Tool forces
  • Gap between the parts
  • Tool wear
  • Temperature of the workpieces
  • Temperature of the fixture
  • Geometry of the set-up

The categorisation depends on the concept and complexity of the machine. Modern FSW machines provide close-loop force and position control algorithms, which complicate the distinction between parameters and variables. Some machines use the temperature as a parameter that can be set, e.g. to change the parameters if the tool gets too hot.

Please feel free to improve the classification above or to propose an alternative classification.

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