Premium Hand Forged Kitchen Knives

Birch & Bevel

Forged in Europe by Artisan Blacksmiths.

For years, Modern Cooking has curated the work of exceptional makers. Birch & Bevel is the other half of that story: our own interpretation of the gyuto, shaped by everything we’ve learned about performance, balance, and daily use. One idea, expressed through a considered family of knives.

FocusThe gyuto
ProfilesClassic & Modern
HandlesMasur birch · Bog oak
Core steelsApex Ultra · RWL34 · 26c3

The Lines · Honyaki, Clad, Mono

Choose by construction.

All high performance, all high quality. Some laminated for the aesthetic, others mono for the pragmatic — the choice is about what matters to you.

Modern · X8Ni9-clad · Gyuto

Modern X8Ni9 Clad AU

Apex Ultra carbon edge under an X8Ni9 jacket — a 9% nickel steel we chose specifically for the distinctive banded pattern it takes when polished, reminiscent of the alloy banding seen in some hand-forged carbon steels. A cladding finish you won't find on common clad knives.

250mm230mmMasur BirchBog Oak
· $1,157.00
Modern X8Ni9 Clad AU

Modern · Mono · Gyuto

Modern RWL Mono

RWL34 powder stainless, mono-steel — hard-wearing, low-maintenance, built for a busy board.

240mm210mmBog OakMasur Birch
· $901.00
Modern RWL Mono

Blade construction

Honyaki

The traditional Japanese single-steel forging technique, in which a high-carbon mono-steel blade is differentially hardened — clay is applied to the spine before quench, leaving only the edge to fully harden. The result is a hard cutting edge and a softer spine that improves toughness, plus the hamon (temper line) that defines the visual signature of the technique.

Honyaki is the high-water mark of Japanese knifemaking. The technique is unforgiving; a failed differential quench cracks the blade. Honyaki knives are almost always from a single high-purity carbon steel — Shirogami #1 is the canonical choice — and are priced and treated accordingly.

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Blade construction

Laminated Steel

A category covering knives built from multiple layers of different steels forge-welded together. The hard cutting steel is sandwiched between softer outer layers (cladding) that protect the core, add toughness, and often contribute visual contrast.

The most common laminated constructions in the Modern Cooking catalogue are:

SanMai (三枚) — three layers: hard cutting steel in the centre, softer cladding on both sides. The traditional and most common form.

GoMai (五枚) — five layers: a hard core, two intermediate layers, and two outer layers. Adds visual depth and structural complexity.

KuMai (九枚) — nine layers: similar logic, with more cladding layers for additional pattern and structural variation.

GoMai and KuMai are often chosen not only for the additional layers and visual depth, but also because the intermediate layers can act as a nickel diffusion barrier — limiting carbon migration out of the core into the cladding during forge welding, and protecting the core's intended carbon content through the heat of the forging process.

In all cases the cutting performance is determined by the core steel; the outer layers are cosmetic and structural. The lamination contributes corrosion protection (when a stainless jacket clads a carbon core), reduced reactivity, and the visible boundary between core and cladding that gives the knife its character.

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Blade construction

Mono Steel

A knife forged from a single piece of steel — no laminations, no clad layers. The simplest and most direct construction. The entire blade is the cutting steel, with no softer outer jacket to protect or contrast it. Most contemporary Western kitchen knives in carbon and stainless steel are mono-steel constructions, as are honyaki and most European bladesmith work.

The trade-off is straightforward: mono-steel knives are easier to forge, sharpen, and reason about, but the entire blade carries the cutting steel's properties — including its reactivity if it's a clean carbon. There is no soft jacket to protect a more brittle core from impact, so the heat treatment and geometry have to do all the work.

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Cutting edge steel

26C3

High-carbon, low-alloy fine-grain steel

Typical HRC
63–67
Corrosion class
Carbon
Production
Conventional
Origin
Sweden (Sandvik / Alleima)

26C3 is one of the most quietly important kitchen knife steels of the past decade. Originally engineered by Sandvik as a razor steel — its lineage runs straight to UHB-20C — it carries about 1.25 to 1.30 percent carbon, very low manganese and sulphur, and a small chromium addition to control grain size. The result is a steel that hardens cleanly into the mid-sixties HRC while retaining genuinely useful toughness for its hardness, an unusual combination outside the powder-metallurgy world.

For the cook, 26C3 sharpens the way the best Japanese white papers sharpen — a quick burr that wipes off cleanly, and a polished edge that holds a screaming apex without microchipping. Toughness at 64 HRC is comparable to or better than 52100 at the same hardness in published testing, which is part of why the Larrin-Thomas-and-friends generation of makers gravitated to it; it lets you grind thinner without paying for it later. Like all clean carbons, it patinas willingly and benefits from a wipe between tasks.

26C3 has become something of a default among UK and European bladesmiths who want a no-compromise carbon edge, and it is the chemical parent of SheffCut, which adds a sliver of niobium to refine grain further. Among the makers Modern Cooking carries, Birch & Bevel, Karol Karyś, Jonas Johnsson, Tobias Heldqvist, Brook Turner, and Fredrik Spåre work in 26C3. It is one of the few non-stainless steels you can recommend to a cook coming from VG-10 without apology.

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Cutting edge steel

Apex Ultra

Low-alloy fine-grain carbon tool steel

Typical HRC
64–68
Corrosion class
Carbon
Production
Conventional
Origin
Austria (developed by Tobias Hangler and Marco Guldimann; project led by Hangler at Messerschmiede Hangler)

Apex Ultra is one of the most carefully engineered non-stainless kitchen knife steels in modern circulation, and the project of an Austrian smith — Tobias Hangler — who set out, with Marco Guldimann, to design a steel for the kitchen rather than borrow one from another industry. It carries roughly 1.25 percent carbon, around four percent chromium, modest tungsten and molybdenum, and a small vanadium addition. The composition is tuned to produce a fine, evenly distributed carbide structure that supports hardness up to 67 HRC while delivering toughness comparable to 52100 at the same hardness — a combination that is the entire point of the steel.

What this means for a cook is unusual permission. You can ask a maker to grind an Apex Ultra knife thin enough that a White #1 owner would call you brave, then ask for the heat treatment to land at 65 HRC, and the resulting edge will hold for longer than Aogami Super without microchipping. It sharpens cleanly on natural and synthetic stones alike and patinas slowly because of the chromium content, though it is not stainless and should be treated as a carbon steel.

Apex Ultra has become a signature steel of the European maker community, and the Modern Cooking catalogue carries an unusually deep bench of smiths working in it. Tobias Hangler himself heads that group, alongside Marco Guldimann, Benjamin Kamon, Martin Huber, Jonas Johnsson, Karol Karyś, Birch & Bevel, and MCx. It is genuinely a step forward — one of the relatively few cases where the marketing claims and the underlying metallurgical data are saying the same thing.

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Cutting edge steel

RWL34 / RWL

Powder metallurgy martensitic stainless tool steel

Typical HRC
60–63
Corrosion class
Stainless
Production
Powder
Origin
Sweden (Damasteel)

RWL34 — usually shortened to RWL — is Damasteel's powder-route stainless equivalent of ATS-34 / CPM-154, and is the bright-and-hard layer in much of the world's high-end stainless damascus. The composition (1.05 percent carbon, 14 percent chromium, 4 percent molybdenum, 0.2 percent vanadium) is essentially ATS-34 chemistry, but the rapid-solidification powder process produces a finer, cleaner microstructure than the conventional ingot route.

In a kitchen knife — usually a Damasteel-pattern blade — RWL34 runs at 60–62 HRC, sharpens cleanly, and produces a refined edge that holds well for the class. Edge retention is in the same band as SG2 at slightly lower hardness; toughness is good; corrosion resistance is excellent. The named association with Robert W. Loveless, the steel's original collaborator on the design, is half of the steel's mystique.

You see RWL most often as a mono-steel core in high-end custom work and as the contrast layer in Damasteel patterns. Among the makers Modern Cooking carries, Bernhard Noitz, Erik Gullikson, Evan Antzenberger, Jeroen Knippenberg, and Birch & Bevel work in RWL. It is a genuinely nice premium stainless that is somewhat under-discussed compared to the American powder steels.

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