Thank you for the kind words! This is an interesting aspect that you mention, as many stainless steels also cause a high thermal load on the cutting edge. In any case, further studies on low-temperature emulsion with varying materials such as stainless steels should be carried out in the future.
Interesting topic! But why doesn’t the emulsion freeze at low temperatures?
Thank you for the important question! The addition of monoethylene glycol enables freeze resistance down to approx. -30 °C.
Thank you very much for this beautiful presentation. What do you think how your technology would work for stainless steel?
Thank you for the kind words! This is an interesting aspect that you mention, as many stainless steels also cause a high thermal load on the cutting edge. In any case, further studies on low-temperature emulsion with varying materials such as stainless steels should be carried out in the future.