Strip

TAD INOX produces a wide range of sizes and edge finishes of stainless steel slit strip through multiple slitting lines.

Stainless steel slitting is one of our core specialties, offering slit widths from 8 mm to 1550 mm. We deliver exactly to your specifications, with the desired dimensions and tolerances.

Slit tape for a wide range of applications

Because we slit the stainless steel coils via a knife beam, we can not only ensure a consistently high level of quality, but also achieve rapid production. Our facilities make it possible to prepare several knife bars for the next jobs in a short time. This keeps the physical strain on our employees to a minimum and we offer optimally ergonomically designed workstations.

Specialist in precision slit tape

The technical specifications of our precision slitting tape reflect our specialization in narrow belt slitting. Every aspect of our production is carefully optimized to provide superior performance and quality, especially for applications where precision is critical. Our advanced manufacturing technologies and quality controls ensure that we consistently deliver high quality products that meet our customers' specific requirements.

  • Thickness

    0.30 mm - 3.00 mm
  • Width

    8.0 mm - 1,550 mm
  • Internal coil diameters

    406 - 508 - 610 mm
  • Weight

    25,000 kg
  • Tolerance

    Different thicknesses and tolerances on request, DIN EN ISO 9445-2:2010 by agreement

All operations under one roof

To ensure consistent quality and the highest precision, we handle the maintenance of our tools in-house. This precision is essential for delivering high quality end products.

Edge Processed Strip

TAD INOX offers the ability to deburr or provide slit tape with beveled or rounded edges. Depending on your design requirements, we remove material and convert the sharp edges into deburred edges, bevels or rounded profiles. This chamfering process offers numerous advantages for many applications in metalworking:

  • Safety is improved by removing sharp edges
  • Mounting and fit is improved by allowing easier insertion
  • Stress concentration at the corners is reduced
  • The edges are prepared for welding or other joining processes
  • Specific aesthetic or functional design requirements can be met