QForm

QForm is an engineering software used for simulation, analysis and optimization of metal forming processes.

Geometric design of workpieces and molds would be imported to QForm from any CAD software.

Metal Forming processes include Forging, Rolling and Extrusion. Besides, this software can handle both 2D and 3D metal forming processes. QForm simulation software is used for developing, simulation and optimization of plenty of different metal forming processes. Metal forming processes are used for production of different parts for aerospace, defense, automotive, energy and aluminium extrusion.

Material Fully developed flow is coupled with the temperature and deformation of the dies taking into consideration distortion of tool surfaces, especially in the bearing area and simulates the material flow through this deformed shape of the die orifice. Optimize material flow reduces the force and utilizing the plasticity resource completely.

Here are some of my projects:

General Metal Forming

Metal forming process analyzes are applied on these workpieces. Stress, temperature, strain, strain-rate and velocity values on structure are aimed to work out. Unexcepted structure and shape fails are checked during these analyzes.

  • The detail view of elastic strain on workpiece.
  • The detail view of plastic strain on workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of volumetric strain on workpiece.
  • The detail view of elastic strain on workpiece
    The detail view of elastic strain on workpiece
  • The mesh view of workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of plastic strain on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of volumetric strain on workpiece.
  • The detail view of temperature on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece

Rolling

Rolling process analyzes are applied on these workpieces. Besides all these, ring rolling, reducer rolling, hot flat rolling and cross wedge rolling are aimed and predicted to work out too. Unexcepted structure and shape fails are checked during these analyzes.

  • The detail view of workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of workpiece
    The detail view of workpiece

Forging

Forging process analyzes are applied on these workpieces. Besides all these, hot, warm and cold forgings, open and closed die forging, metal flow in different dies, possible defects including non-filling of a die impression and flow through defects are aimed and predicted to work out too. Unexcepted structure and shape fails are checked during these analyzes.

  • The mesh view of workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of plastic strain on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece
  • The mesh view of workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of plastic strain on workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of effective stress on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece
  • The mesh view of workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of plastic strain on workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of effective stress on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece
  • The mesh view of workpiece.
  • The detail view of plastic strain on workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of effective stress on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece
  • The mesh view of workpiece.
  • The detail view of located workpiece in mold.
  • The detail view of temperature on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of plastic strain on workpiece.
  • The mesh view of workpiece
    The mesh view of workpiece
  • The detail view of plastic strain on workpiece.
  • The detail view of temperature on workpiece.
  • The detail view of effective stress on workpiece.
  • The detail view of mean stress on workpiece.
  • The detail view of plastic strain on workpiece
    The detail view of plastic strain on workpiece