Knife Care
Caring for your Japanese Chef Knife
Japanese chef knives need a little more care than your regular off the shelf knives. But don’t be afraid, looking after them is easier than you think.
So you’ve taken the plunge and bought your first ‘real’ chef knife. As you gaze at it with a smile, it can be somewhat daunting to use your Japanese chef knife for the first time. As with all high-performance tools, your new knife will need some love and care to ensure it performs to the highest level for many years to come. The blades construction and steel type will determine the level of care required, as the higher carbon steel Japanese chef knives require more attention than others.
The main question we get when someone new to carbon steel (Blue/White) knives uses theirs for the first time is one of shock being, “Why has my blade changed colour?!”
High-carbon steel Japanese chef knives (whether clad in a stainless steel or not) are knives that do not contain any (or very little) Chromium, the main element that give stainless knives their rust resistance. As such, these blades are prone to oxidation or discolouring from the first use.
Fear not, as the patina is only superficial, and will actually help prevent against rust in the long term. Certain foods like meats, acidic fruits and vegetables, and also condiments like mustard will all produce wildly different colours and patterns as they emerge and leave their mark on your blade. This is completely normal, and is all part and parcel of owning a carbon steel knife.
Cutting
When cutting using your new knife, ensure that only a straight up/down motion is used, as these knives use an extremely hard steel with a very fine edge. Any twisting or torquing of this extremely thin steel will chip or break your blade. Certain food textures (chicken, meat etc) will sometimes not respond to cuts whereby your press directly down onto the food with the blade. Try either a push or pull motion to ensure effortless cuts.
We advise to only cut on wooden boards! There is conjecture as to whether plastic boards are safe, but we prefer to err on the side of caution with this one. Due to the softness of some plastic boards, your knife will occasionally sink slightly into the board with each cut. If the blade is twisted or moved at this contact point, damage has been known to occur.
It almost goes without saying, please do not use your knife to cut any bones, stoned fruits, or any other hard objects.
Washing
A soft dishcloth and hot water is all you need to keep your blade clean. Use a small amount of dish soap if desired, but avoid scourers and anything abrasive.
Absolutely no dishwasher use!
For blades that have a core or are made from a high carbon steel such as Blue, White Steels, these will need to be wiped down immediately as rust spots can develop within minutes as they contain no stainless elements.
Storage
You new knife deserves better than crashing around in your cutlery drawer, so keep them in the original box it came in. Even better, pick up a leather-clad magnetic knife holder to showcase your knives in the open (away from mischievous pets and children) where they belong.
Add a dab of Camellia Oil between uses for carbon steel knives, as this will prevent any moisture reaching the steel and causing rust spots.
Sharpening
Keeping you new knife sharp may take some practice, so we recommend a whetstone with two side for beginners, one with a rougher grit of 1000 to remove steel from the edge, and then a finer grit like 6000 to polish the edge.
We recommend practicing on a cheaper knife first, until you can hone your skills and be confident enough to attempt to sharpen your more expensive knives. We’ll write up a complete sharpening guide soon. For now, there are plenty of great videos on YouTube like this one to quickly pick up the skills required.
If you ever need any further information on how to care for your new knife, please reach out via any of the channels available!
The Definitive Guide to Japanese Knife Steels
It’s the business end of the chef knife, the part that does the real work.
The core steel of your knife, or the cutting edge, is one of the most important aspects in determining how your knife performs. The grind, balance, weight and size of a knife are also important, but often the debate rages on what the best core steel is to use for a knife.
Is ZDP-189 worth the cost? Is VG-10 any good? Carbon vs Stainless?
Each steel, like each knife type, has its own advantages and disadvantages, but a good knife steel is the foundation from which the rest of the knife is constructed.
Generally speaking, you’ll find a Japanese blacksmith will prefer to use a steel type that belongs to one of 3 groups:
Traditional High-Carbon Steels (Non Stainless), like Aogami or Shirogami
Stainless Steels (VG10, AUS10)
Powder Steels (ZDP-189, SG2/R2, Cowry X)
We’ll cover the steels in each of these 3 groups and what makes them different from your regular off the shelves.
Carbon Steel
Japanese blacksmiths prefer to use these traditional knife making steels that lack the stainless elements of their counterparts. Easy to forge to high hardness with good edge retention and excellent sharpness, they are the closest steels to ‘Tamahagane’, the steel ancient samurais used for their swords.
They are, as their name suggests, very high in Carbon (C) content, the element which gives steel its ability to be hardened during the heat treatment process. As steel is hardened it becomes more brittle, a trade-off for it’s long lasting sharpness.
Shirogami/White Paper Steel
White Steel is known for 2 things: steel purity, and incredible, surgical sharpness.
It has very little added elements, except for trace amounts of Sulfur and Phosphorous. It will rust and patina quite easily, so be sure to wipe down immediately after use, and beware when using a Shirogami knife on things like onions or potatoes, as it can leave orange or brown marks on food.
White Steel 1
High hardness, up to 65 HRC.
Carbon: 1.25-1.35%
Manganese 0.20 – 0.30 %
Phosphorus 0.03 %
Sulphur 0.004 %
Silicon 0.10 – 0.20 %
White Steel 2
Moderate hardness, up to 61 HRC.
Carbon 1 – 1.15 %
Manganese 0.20 – 0.30%
Phosphorus 0.03 %
Sulphur 0.004%
Silicon 0.10 – 0.20 %
Aogami/Blue Paper Steel
Probably the most commonly used carbon steel in Japanese chef knives, Aogami or “Blue” paper steel gets its name from the blue paper that Hitachi Metals supplies the steel in.
It comes in 3 variants, Blue 1, Blue 2, and Blue Super, who’s incremental carbon increases result in Blue Super being one of the highest hardness knife steels available when quenched and treated well.
It is a reactive carbon steel, essentially white steel with added chromium, carbon, and tungsten. This results in a knife that does not rust or patina quite as easily as White Steel, and holds an edge for longer.
Blue Steel 1
High hardness, up to 65 HRC.
Carbon: 1.25-1.35%
Chromium: 0.20-0.50%
Manganese 0.20 – 0.30 %
Phosphorus 0.03 %
Sulphur 0.004 %
Silicon 0.10 – 0.20 %
Blue Steel 2
Moderate/High Hardness, up to 63 HRC
Carbon 1.05 – 1.15 %
Chromium 0.20 – 0.50 %
Manganese 0.20 – 0.30 %
Phosphorus 0.03 %
Sulphur 0.004 %
Silicon 0.10 – 0.20 %
Tungsten 1.00 – 1.58 %
Blue Super
High Hardness, up to 65HRC
Carbon: 1.40 – 1.50 %
Chromium 0.30 – 0.50 %
Manganese 0.20 – 0.30 %
Molybdenum 0.30 – 0.52 %
Phosphorus 0.03 %
Sulphur 0.004 %
Silicon 0.10-0.20 %
Tungsten 2.00 – 2.50 %
Vanadium 0.30 – 0.50 %
Stainless Steels
Often not quite as high in carbon content, stainless steels have added chromium which acts as a protecting element to oxidizing agents such as acidic foods and water. Generally speaking, when a steel has 12% or above in Chromium content, it is regarded as a stainless steel.
They can be hardened to about HRC 60, and as such a sharp edge will not last quite as long as their carbon steel counterparts. The main stainless steels used by Japanese blacksmiths are VG-10 and AUS10, and Ginsan.
For their versatile nature and minimal maintenance, stainless steels are very common across many knives manufactured throughout the world.
VG10
Moderate/Low Hardness, up to 60-61 HRC
Carbon: 0.95 – 1.15 %
Chromium: 14.50 – 15.5 %
Cobalt: 1.30 – 1.50 %
Manganese: 0.50 %
Molybdenum: 0.90 – 1.20 %
Phosphorus: 0.03 %
Vanadium: 0.10-0.3 %
AUS10
Moderate/Low Hardness, up to 60HRC
Carbon: 0.95 – 1.10%
Chromium: 13.00 – 14.50%
Molybdenum: 0.10 – 0.31%
Vanadium: 0.10 – 0.27%
Nickel: 0.49%
Manganese: 0.50%
Silicon: 1.00%
Phosphorous: 0.04%
Sulfur: 0.03%
Ginsan
Moderate/High Hardness, up to 63 HRC
Carbon: 0.92 – 1.10 %
Chromium 13.00 – 14.5 %
Manganese (Mn) 0.60 – 1.00 %
Phosphorus (P) 0.03 %
Sulphur (S) 0.02 %
Silicon (Si) 0.35 %
Powder Stainless Steels
This is where the real fun begins! Powder steels are exotic modern alloys that combine the high hardness, high strength properties of carbon steels, with added stainless properties, resulting in superior performance in every way.
Whilst being slightly harder to sharpen and maintain, a cutting edge made from Powder Stainless steel will hold an edge much longer than most other knife steels.
The most common powder steels in japanese knife making are SG2/R2 (Super Gold 2/R2), ZDP189 and HAP40, with ZDP-189 bursting onto the scene in the last decade as being the go-to powder steel of choice for high end chef knives.
You’ll find that a knife with a Powder steel core is more expensive than most others, and for good reason! The steels are expensive and extremely hard to procure, and even then, in the hands of an amateur blacksmith, they are useless. It takes an extremely skilled craftsman to forge and laminate these steels together, resulting in longer build times and requiring nothing short of perfection in the manufacturing process.
SG2/R2
High Hardness, up to 64 HRC
Carbon: 1.25-1.45%
Chromium: 14.00 – 16.00 %
Molybdenum: 2.30 – 3.30%
Vanadium: 1.80 – 2.20 %
Manganese: 0.40%
Silicon: 0.50%
Phosphorous: 0.30%
Sulfur: 0.30%
ZDP189
Extremely High Hardness, up to 67 HRC
Carbon: 3.00%
Chromium: 20.00%
Molybdenum: 1.40%
Tungsten: 0.60%
Vanadium: 0.10%
Manganese: 0.50%
Silicon: 0.40%
HAP40
Extremely High Hardness, up to 68 HRC
Carbon: 1.27 – 1.37%
Chromium: 3.70% – 4.70%
Molybdenum: 4.60 – 5.40%
Tungsten: 5.60 – 6.50%
Vanadium: 2.80 – 3.30%
Cobalt: 7.50 – 8.50%
Final Thoughts
There you have it. Some information on the most common seen steel types in not only Japanes knives but knives around the world. Be sure to choose a steel that matches your lifestyle and ability to maintain!