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Thermal oxygen cutting

Type of technology

Cutting

Development phase

declining

Level of innovation

enterprise level

Scale of production

batch

Technology readiness level TRL

Description of the technology

Thermal oxygen cutting involves burning a slit in the material using a jet of oxygen in conjunction with a heat source, usually an oxy-acetylene gas flame. In addition to acetylene, other flammable gases such as propane, butane, methane or hydrogen can also be used. During the process, the workpiece material is heated to combustion temperature and the molten metal is then removed from the slit using a high-pressure gas jet.

The technology makes it possible to cut thick sheet metal and sheet metal packages (up to 200-300 mm), as well as varnished or corroded parts.

Purpose of use

cutting and beveling sheet metal, cutting out objects of various shapes, cutting out holes, cutting off parts of the gating system of castings

Use in industry

all industries, especially engineering and automotive (mainly steel structures)

Alternative technologies

Visualisation of action

    Advantages

    • very large range of cutting thickness
    • relatively good cutting quality of thicker materials
    • possibility of obtaining perpendicular cutting edges
    • possibility of cutting materials at different angles
    • generating a relatively small amount of waste

    Disadvantages

    • large heat-affected zone (which can affect the mechanical and structural properties of the workpiece area being cut)
    • limited range of application (e.g. inability to machine high-alloy and high-carbon steels)
    • relatively low process speed and efficiency

    Workpiece material types

    • carbon steel
    • low alloy steel

    Examples of products

    • steel structures
    • cutting metal components (e.g. frames; undercarriages and other structural components)
    • cutting aircraft components
    • cutting spacecraft components
    • cutting components of heavy machinery (e.g. bulldozers)

    Implementation of the technology

    Required resources

    • acetylene-oxygen torch
    • power source
    • tooling

    Required competences

    • training in torch cutting
    • extensive practical experience in cutting processes

    Environmental aspects

    Water consumption

    Energy consumption

    Waste generated

    Expert evaluation

    Competitiveness

    Usability

    Environmental impact

    Development centers

    • none

    Legal conditions

    • none

    Companies using the technology

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