How Razor Blades Are Made

The razor blade is made of martensitic steel, named after its discoverer, a 19th century German metallurgist. The steel is a super-hard alloy that is used in surgical instruments, ball bearings, bicycle disc brakes, and commercial razors. As a result, it is very durable. To make it more durable, the material is hardened at extremely high temperatures. The process of making a blade is highly labor-intensive, and requires special support structures.

The Bearded Colonel

The blade is inserted into the handle through a tang. The handles of these razors are made from bone, plastic, or wood, or mother-of-pearl. Ivory was once used, although fossil ivory is sometimes used today. Shaving devices, such as electric shavers, use disposable blades, which do not require honing or stropping. The safety razor and shavettes are two types of disposable razors.

Stainless steel is used for razor blades because it has good corrosion resistance. Jindal Stainless is the largest manufacturer of stainless steel razor blades. According to the U.S. International Trade Commission, Jindal SS is the world’s leading producer of razor blade blades. Woldman’s engineering alloys describes how different types of stainless steel perform in different applications, including shaving blades. Using this information, manufacturers can create high-quality, long-lasting blades.

While making a razor, the plastic components are also produced concurrently. The plastic resins are mixed with stabilizers, colorants, and antioxidants. The resulting powder is then cut into pellets that are molded into the handle. Depending on the type of blade, the components can be assembled into a complete razor. If this process is performed properly, the shaver will last for many years. The blades are also easier to transport because they can be stacked.

The MIT study has identified the mechanism by which a blade fails. The results of this study will lead to new ways to design blades with better microstructures. For example, reducing the rough edges of the blade’s edge is the key to a more uniform microstructure. This will help ensure that the blade’s edge is smooth and does not nick or damage the skin. If the blade breaks, it can easily be replaced with a new one.

Other parts of the razor may contain miscellaneous parts that hold the blade in place and facilitate the replacement of the blade. These parts are molded in similar ways. Some advanced brands of razors feature lubricating strips that absorb water and help the device glide across the face. The strips also serve as a barrier to prevent the blade from sticking to the face. These materials are essential for a razor’s performance. The more expensive models include a higher quality head and blade.

The blade is produced by assembling the steel support members. It is then fitted to the razor handle through a rotary assembly line. The rotary assembly line is a simple, automated process. In a few minutes, the blade cartridge is finished and ready for sale. The resulting cartridge is a high-quality product that will last for years. If you are looking for a razor with a high quality and safety rating, we recommend purchasing an electric razor that comes with an electric motor.