Design by Andreas Weitzel

Irves

FX-532

Blade Steel: N690Co stainless steel

Hardness: HRC 58-60

Blade Coating: Physical Vapor Deposition (PVD)

Handle: G10 black

Clip: stainless steel 420J2B - reversible

Blade Length: 8.5 cm - 3.35"

Overall Length: 21.5 cm - 8.46"

Blade Thickness: 4 mm - 0.16"

Weight: 250 gr - 8.82 oz

  • Description
    “Irves is for me a tool for hard work in different situations. Some kind of all rounder. It has a very good combination of useful design features like the massive and comfortable handle. What are the advantages to the heavy weight? This knife is for hard and heavy works. You can chop, split, break down with this knife.”

    Andreas Weitzel
  • Designer
    Andreas Weitzel

    View all products deisgned by Andreas Weitzel

    view

  • Blade
    Blade Coating: Physical Vapor Deposition (PVD)

    PVD
    (Physical Vapor Deposition) is a variety of vacuum deposition methods used to deposit thin films by the condensation of a vaporized form of the desired film material onto various workpiece surface. The coating method involves purely physical process such as high temperature vacuum evaporation with subsequent condensation.

    Blade Steel: N690Co stainless steel

    Acciaio Steel Carbonio Carbon Cromo Chromium Cobalto Cobalt Azoto Nitrogen Manganese Manganese Molibdeno Molybdenu Nichel Nickel Fosforo Phosphorous Silicio Silicon Zolfo Sulfur Tungsteno Tungs Vanadio Vanadium
    N690CO 1.08 17.30 1.50 - 0.40 1.10 - - 0.40 - - 0.10

  • Gallery

Info

“Irves is for me a tool for hard work in different situations. Some kind of all rounder. It has a very good combination of useful design features like the massive and comfortable handle. What are the advantages to the heavy weight? This knife is for hard and heavy works. You can chop, split, break down with this knife.”

Andreas Weitzel

Designer

Andreas Weitzel

View all products deisgned by Andreas Weitzel

view

Blade Coating: Physical Vapor Deposition (PVD)
PVD
(Physical Vapor Deposition) is a variety of vacuum deposition methods used to deposit thin films by the condensation of a vaporized form of the desired film material onto various workpiece surface. The coating method involves purely physical process such as high temperature vacuum evaporation with subsequent condensation.
Blade Steel: N690Co stainless steel
Acciaio Steel Carbonio Carbon Cromo Chromium Cobalto Cobalt Azoto Nitrogen Manganese Manganese Molibdeno Molybdenu Nichel Nickel Fosforo Phosphorous Silicio Silicon Zolfo Sulfur Tungsteno Tungs Vanadio Vanadium
N690CO 1.08 17.30 1.50 - 0.40 1.10 - - 0.40 - - 0.10