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Incremental Sheet Forming (ISF)

Type of technology

Forming processes

Development phase

advanced

Level of innovation

national level

Scale of production

unit

Technology readiness level TRL

Description of the technology

Incremental sheet forming is a sheet forming technique in which a metal sheet is formed into a finished part by a series of small incremental deformations.

The metal sheet is formed with a round-tipped tool, usually between 5 and 20 mm in diameter. The tool, which can be attached to a CNC machine, robotic arm or similar device, plunges approximately 1mm into the metal sheet and follows the contour of the desired part. It then plunges in and deforms the next contour of the part in the sheet, and so on until the whole part is formed. The ISF can be divided into variants depending on the number of contact points between the tool, metal sheet and die (if any).

Purpose of use

shaping a mould/part into specific forms by gradually deforming a sheet of material

Use in industry

biomedical, automotive, aviation, nuclear energy, defence industries

Alternative technologies

  • stamping
  • hydroforming

Visualisation of action

    Advantages

    • no need for a die
    • easy process design
    • easy adaptation of a program to new component dimensions
    • easy component prototyping
    • easier deformation of difficult-to-deform materials due to the small deformation zone

    Disadvantages

    • lower component accuracy
    • multi-stage process
    • increased component production time
    • limitation to small batch sizes

    Workpiece material types

    • all material groups
    • ferrous metals
    • non-ferrous metals
    • non-ferrous metals alloys

    Examples of products

    • biomedical implants
    • orthopedic plates and screws
    • joint prostheses
    • body components (e.g. hoods or dashboard components)
    • wing panels
    • fuselage components
    • aircraft engine housings
    • fuel housings and cooling elements for nuclear reactors
    • armor components for military vehicles

    Implementation of the technology

    Required resources

    • CNC milling machine

    Required competences

    • ability to program CNC machines

    Environmental aspects

    Water consumption

    Energy consumption

    Waste generated

    Expert evaluation

    Competitiveness

    Usability

    Environmental impact

    Development centers

    • Wrocław University of Science and Technology
    • AGH University of Krakow
    • Lublin University of Technology

    Legal conditions

    • none

    Companies using the technology

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