Knives made with S600 tool steel
Example Knife:
Extrema Ratio ONTOS II S600
S600 (Böhler) or generic M2 tool steels are high Tungsten, High Mo and High Vanadium content high speed tool steels with a carbon content around 0.9% and a chromium content around 4%. These are industry proven high speed steels synonymous in the machining world.
S600 has been formulated to be hardened right up to HRC 67 (Possibly harder?) and as such much research has been conducted upon not only this version but also that of M2 to enable metallurgists to optimise the grain structure of such alloys. There is a current great interest in the use of various cryogenic treatments from spraying liquid nitrogen to deep cryogenic processes of greater than 24 hour treatments in order to maximise the transition of austenite to martensite. As such, there is a much opportunity to exploit the physical properties of S600 (as shown in the table below- from Böhler):
for the use of this alloy in the manufacture of long lasting sharp blades for outdoor usage. S600 unlike many other tool steels can be optimised for hardening at very high Rockwell values.
For example, high chromium alloys for which Rockwell values exceed HRC 58, resistance to corrosion is lost as the HRC exceeds 58 and even at 58, for example N690 a high cobalt stainless steel will begin to show signs of corrosion if the blade is left unattended after exposure to saltwater and or water either vapour or in liquid form (not to mention corrosive organic substances; eg saps, etc. Hence for N690 to be of any benefit for outdoor knife production HRC 58 is probably the practical limit to such an alloy for outdoor knives, in order to still capitalise upon good stainless properties.
Since S600 (and M2) have little chromium present, it serves less for providing resistance to corrosive chemical action.
The Practical Tests Conducted*
We conducted practical tests, using an S600 made knife for which the entire blade was Teflon coated with exception of the cutting edge. This product had been heat treated and cryogenically treated for a HRC value of 64. The specific cryogenic treatment was not disclosed. The knife (meaning the entire steel structure) was exposed to high humidity for a period of almost 3 weeks; exposed to heavy rain (the main blade); water rinsing and or wiping the blade clean (via inspection by eye only) after cutting various organic substances containing saps and or resins, whether food based or not.
Since the Teflon coating during this period remained undamaged, it provided ample exclusion of air and or any liquids coming in contact with untreated steel. The only untreated steel was that of the actual blade cutting surface, which we will refer to as "the edge". Despite such treatment, which by the way, was exactly the same as we conduct upon any stainless steel alloys (with the exception of seawater exposure), examination of the edge of this S600 knife showed negligible effects of corrosion. In fact in a few small places (less than 5mm from one entire side of the edge) there were a few dark patina staining marks, which were not removed by wiping the edge against a paper hand towel.
Closer examination at > X 4 magnification, surface rusting in the form of orange brown stains were also observed and also noted to be staining rather than any kind of corrosive pitting. Previously with similar testing to an M2 knife (Work Tuff Gear) which had not been coated in Teflon, this blade too showed some patina marks which were also negligible in surface area.
What kinds of materials were cut/encountered?
Entire green coconuts (with exposure to the coconut water)
Green rainforest timber-entire trunks**
Green cypress timber
Green palm fronds
Wild chives
Living bracket fungi (Sheep's foot fungus)
Raw beef
Preserved salted dry meats
Cabbage
Green grass-specifically Paspalum sp.
Dry birch bark
Fat wood from Pinus sp.
Seasoned Eucalyptus (hardwoods)
Seasoned Australian native species (hardwoods)
Termite material
Ficus species (living branches)
Cutting against HDPE commercial chopping boards
Cutting against Bamboo cutting boards
Cutting against dry palm bracts
Images of blade surface
Edge Chipping.
Zero evidence of chipping!
Summary
Was the blade still deadly sharp after approximately 3 weeks of serious outdoor treatment?
Answer:
YES- deadly sharp.
Did the Teflon coating: breakdown, peel, show signs of damage after a 3 week intense period of usage?
Answer:
NO
Conclusions:
With nothing but basic care this S600 blade (Extrema Ratio ONTOS II S600) performed flawlessly. The extremely minor amount of patina was to be expected from a non stainless steel blade after exposure to the range of materials listed above. It is clear that with the appropriated heat treatment a knife blade can indeed be hardened to HRC 64 and retain sufficient toughness and durability of the edge after encountering a broad range of materials thus enabling such an alloy to be used with great success for high Rockwell rated outdoor blades.
It should of course be noted that to allow such a high Rockwell blade to actually go blunt would be a big mistake and require some effort to resharpen the edge. It is recommended that a maintenance "strop" be conducted based upon usage. As we found it still extremely sharp after all of this work, we can not say what sort of time period would be expected to strop, since it was still so super sharp. In reality, I doubt anyone would use a knife at such a high frequency as we did for these tests and therefore, the edge longevity would be very long for S600 at HRC 64.
BCT will keep you posted here as to the "when" we have to strop the edge of this blade!
* for the full practical tests, see the upcoming video field review of this knife made from S600 Tungsten tool steel on @BushCampingTools
So Stay Tuned!
** all cutting or felling of trees was conducted upon our own farmland property.
Here is the video you've been waiting for:
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