The straight razor

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Mastro Livi "For Straight Razor Place" / Region: Perugia, Italy / Date: 2008 / Grind: Full Hollow / Size: 7/8" / Point: Spanish / Shoulder: 1 stabilizer / Spine Decoration: File work / Jimps: Upper & Lower / Scales: Wood / Steel: Stainless
In this entry, we will explore straight razors a bit more in depth including the anatomy of a straight razor, different styles of razors, things to look for when buying antique straight razors for use, questions to ask a seller when purchasing an antique razor online, as well as many other things.

Basic straight razor anatomy

Basic Straight Razor Anatomy
Orientation used in the description: the handle to the right, blade to the left, cutting edge pointing downwards.
Point/Kopf/Bout/Punta
the left end of the blade (also referred to as "toe", as opposed to "heel", i.e. the other end of the blade area).
Blade, with a Back/Ruecken/Dos/Lomo
the part of the blade opposite the cutting edge, and an Schneide/Cutting edge/Tranchant/Corte (pointing downwards).
Tang/Erl/talon/Espiga
the complete non-cutting metal part fixed to the blade, serving as a grip for the index, middle, ring, and little finger.
Jimps
raised ridges along the tang present on some razors as a gripping aid.
Double stabilizing piece/Doppelansatz/Double piece stabilisatrice/Doble pieza estabilizadora
two close parallel vertical rims situated where the tang continues to the cutting part on the knife. Sometimes there is only one stabilizing piece.
Decorated tang/Kranzangel/Talon decore/Espiga decorada
some sort of art where the blade stops and the tang begin.
Handle/Schale/Manche/Cacha
the part of the razor that contains the blade when closed. Sometimes it has an Einlage/Inlay/Marque/Marca (text, mark on the handle).
Center plug/Steg/Rivet central/Remanche estabilizador
the middle plug on the handle; Hohlung/Hollow ground/Evidage/Filo Concavo: the biconcave form of the blade in transection view.
Gold etching/Goldätzung/Gravure doree/Grabado Dorado
the mark or text on the blade.
Trade mark/Zeichen/Marque/Marca
the mark/text graved on the tang.
The Ridge/Der Wall
parallel to the back and the edge, running from point to the stabilizing piece, is a thickening of the blade, the purpose of which is to stabilize against torsion in the horizontal plane, and to give the edge elasticity. The stabilizing piece gives the blade torsion resistance in the vertical plane. If the ridge is close to the edge, it is called =BC hollow ground, the lowest grade of hollow ground; if it is close to the back, it is called 1/1 or full hollow ground; =BD and =BE are in-between.

The blade

Metal

Pure iron is a relatively malleable metal, which cannot be honed to get a sharp edge. Steel is an alloy of iron with a certain proportion of carbon. Higher carbon content makes steel harder, thus allowing a sharp edge to be produced, but at the same time making it more prone to breaking. Steels used for straight razor blades (and cutlery in general) typically have 0.5-1.5% carbon by mass.

However, the carbon content is not the only factor which determines the properties of a steel. Other metals are usually present, either voluntarily added or because they exist in the iron ore : nickel, vanadium, chromium, molybdenum are among the main "steel modifiers". In particular, stainless steel contains a certain proportion of chromium. Many razors use stainless steel blades. The most obvious effect is that those blades are not exposed to rust. Also, stainless steel is harder, thus requiring a slightly different approach to honing, but they also can keep their edge for longer.

Aside from the chemical composition, the properties of steel are also a function of how atoms are arranged inside it. This is a function of the forging process. When steel is heated to near the point of fusion, and cooled down to ambient temperature slowly, the atomic structure evolves with the temperature. However, by heating the steel slowly, and cooling it quickly (usually by plunging it into water), a blacksmith can force the atomic structure which normally exist at high temperature to be kept in low temperature (the atoms do not have enough time to move during the cooling). This process, known as quenching, was developed empirically by generations of smiths, and it's infinite variations makes much of the know-how in blade making.

Widths and grinds

The width of the blade is traditionally measured in 8th (or 16th) of inch (a inch being equal to 25.4 mm). For instance, a razor with an 18 mm large blade is called a 5/8. Width vary from 3/8 to 8/8 (9.5 to 25.4 mm) or even 9/8, with 5/8 and 6/8 blades being the most common.

Henckels-Chart.jpg

The smith can subtract a varying amount of steel to produce a hollow blade. The chart show various levels of hollow blades, from "extra hollow" to "true wedge". An hollow blade produce a crystalline sound while cutting an hair.

Point styles

The point of the blade can be shaped in several styles, the commonest being the round point and the square point (or ‘spike’). But there are also half-round, oblique, notched and French points. The sharp corner on the square point razor is useful for exact work, say, around the edge of a moustache. However, it is also easy to cut yourself with, so most beginners will want a round point as this is more forgiving.

Point.jpg

Shoulder styles

Shoulder bis.jpg

Tail styles

Tail.jpg

Spine styles

Spineprofile.jpg

Scale materials

Scales come in a variety of materials depending on the price range, manufacturer, and era of the razor. Natural materials include wood and animal products, while plastics are also widely used. One must not be ideological about materials, as there are very good razors with plastic scales. Plastics scales are the cheapest to make from an industrial perspective, but require too much tooling for amateurs. Wood is therefore the preferred choice for homemade replacement scales, as it can be machined using artisanal tools.

Wood

Various kinds of wood, more or less "noble", are used to make scales. Ebony is hard, dense and lasting, it is used notably by the common Dovo Silver Steel "Ebenholz" (German for ebony). Boxwood is another good wood, used among other by Thiers Issard. Snakewood, Cedar, Bocote Rosewood, Olive wood and among the quality woods used for scales.

Various techniques are used to protect the wood from moisture and mold : wax, varnish, epoxy coating... Using those techniques, wood becomes a long lasting material.

Metal

Stainless steels are a bit heavier than wood or plastics, but are lasting and noble. Dovo "All Stainless Steel" and Wapienica are among the widespread razors using this material. Aluminum scales can be found on vintage razors too. Silver is even used on some high-end antiques.

Animal products

Earlier razors used numerous materials derived from the animal reign. The use of those materials have declined, because of competition from cheap plastics and the ban of some materials who were derived from endangered species.

  • Bone (typically from cattle) is still used on contemporary produced razors, ie [[Dovo "Bismarck" 5/8

]].

  • Horn (from cattle, bison, buffalo) makes very good scales. This noble material requires specific maintenance (see Illustrated guide to fixing warped horn scales). Note that the same product (basically keratin) can be produced from cattle hoof.
  • Mother-of-pearl (aka Nacre) is a very beautiful, but very expensive material, used by some razors such as a Dovo.
  • Turtle scales used to be a premium choice. Sea turtles hunt is now banned, preventing any legal supply of this product.
  • Ivory, which makes the scales of some high-end vintage razors, is now banned, except in fossil form from mammoths (see Dovo "Mammut" 110).
  • Pressed leather has also been used.

Composites with natural fibers

Those materials are sorts of laminated, plywoods, and so on.

  • Micarta was widely used at a time. It is a plastic (epoxy or cyanoacrylate) with embedded natural materials, such as linen, or even paper. See also : Making Micarta scale material
  • Stamina is a similar material, made of wood and phenol.

Plastics and elastomers

Plastics are artificial polymers. They are generally classified between thermoplastics and thermosetting plastics. Thermoplastics, such as epoxy, turns liquid when heating enough, and are heating to mold a desired object. Thermosetting plastics, such as polyethylene, PVC, polypropylene, or Bakelite, are made from two or more reactants, which are heated to provoke the polymerization. Thus, it's the heating that created the plastic, and this process is no reversible. One created, the object can not be melted, reshaped, nor recycled.

  • Celluloid was historically the first thermoplastic ever, developed as a substitute for ivory (and still sold as faux ivory now). Made from a chemical reaction between cellulose (cotton, paper...) and nitric acid, made imputrescible by the addition of formol, it could be called a bioplastic. It's extremely flammable. Relatively few new straight razors use celluloid scales, except as faux ivory or faux nacre. However, regarding vintage razors, celluloid scales are usual, and sometimes decorated with elaborated reliefs.
  • Various usual plastics now makes the scales of most entry-level razors made in the last decades.
  • Bakelite(commercial name for polyoxybenzylmethylenglycolanhydride) was popular in the first half of the 20th century. Like celluloid, it's one of the first plastics ever. This thermosetting polymer is produced from phenol and formaldehyde (both are basic products from the petrochemical industry), wood flour can be added as a filler.
  • Rubber (natural or artificial) has also been used.


Buying razors

Serious issues

Frowning blades

When a blade is wider at the heel and the toe, it is said to be "frowning." A frowning blade is very difficult to hone if it can be honed at all and so should be avoided if possible.

Edge damage

Chips, nicks, or cracks in the edge can also prevent a blade from being honed. Very small chips or nicks can take many hours to hone out. Larger chips and nicks as well as cracks can mean that a razor needs to be reground before it is usable.
Seriously damaged edge, probably caused by a combination of too much pressure during bevel setting (see long scratch marks) and overly aggressive polishing.

Heavy pitting

Heavy pitting that covers a large portion of the blade will require sanding a lot of material off of the blade in order to get rid of the pitting and corrosion. If the pitting or the corrosion extend to the edge of the blade, it is likely that the blade cannot be made usable again and therefore should be avoided.

Extreme warping

A blade that twists or is otherwise warped visibly is likely to be difficult or impossible to hone. Many older blades maybe uneven when placed on a flat hone and can be honed by using specific techniques like a rolling hone stroke or a concentrated x-pattern. Extreme warping is observable with the naked eye and should be avoided.

Warped scales, however, can be fixed, cf. the Illustrated Guide to Fixing Warped Scales. It should be noted, though, that removing the scales may like result in breakage. A relatively safe way to remove and later re-attach scales is described in the Illustrated Guide to Un-pinning and Re-pinning.

Questions to ask a seller

Despite their best efforts, many sellers have limited knowledge of what is essential information to be put into a classified. If any of the following are missing from the description of a razor that is for sale, you may want to enquire further to avoid later disputes over lack of quality.

  1. When was the blade last honed?
  2. Does it center in the scales without the edge making contact on either side?
  3. Is the pivot pin tight?
  4. Are the scales original?
  5. Are there any cracks in the scales?
  6. Are there any hairline cracks in the blade?
  7. Do you have pictures of the (other side of the blade, close up of a certain area, etc)?
  8. Do you offer a return policy if I am not satisfied?
    1. If yes, what are the terms?

References