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2. Carbon steel - Wikipedia

   en.wikipedia.org/wiki/Carbon_steel

   High-tensile steels are low-carbon, or steels at the lower end of the medium-carbon range, [citation needed] which have additional alloying ingredients in order to increase their strength, wear properties or specifically tensile strength.

3. 4340 steel - Wikipedia

   en.wikipedia.org/wiki/4340_steel

   4340 steel is an ultra-high strength steel classified a medium-carbon, low-alloy steel. 4340 steel has high strength, ductility, toughness, creep resistance, and fatigue resistance relative to most other steels.

4. Tempering (metallurgy) - Wikipedia

   en.wikipedia.org/wiki/Tempering_(metallurgy)

   Tempering is often used on carbon steels, producing much the same results. The process, called "normalize and temper", is used frequently on steels such as 1045 carbon steel, or most other steels containing 0.35 to 0.55% carbon. These steels are usually tempered after normalizing, to increase the toughness and relieve internal stresses.

5. Hardened steel - Wikipedia

   en.wikipedia.org/wiki/Hardened_steel

   The term hardened steel is often used for a medium or high carbon steel that has been given heat treatment and then quenching followed by tempering. The quenching results in the formation of metastable martensite, the fraction of which is reduced to the desired amount during tempering. This is the most common state for finished articles such as ...

6. List of blade materials - Wikipedia

   en.wikipedia.org/wiki/List_of_blade_materials

   S1, a medium-carbon shock-resisting steel tool steel which combines moderate hardness with good impact toughness. Carbon content 0.40 - 0.55%. [11] W1, a water hardening tool steel. High carbon content. W2, a tool steel that holds its edge quite well but is not very tough.

7. Tool steel - Wikipedia

   en.wikipedia.org/wiki/Tool_steel

   1.11–1.30% carbon: files, small drills, lathe tools, razor blades, and other light-duty applications where more wear resistance is required without great toughness. Steel of about 0.8% C gets as hard as steel with more carbon, but the free iron carbide particles in 1% or 1.25% carbon steel make it hold an edge better.

8. Rockwell scale - Wikipedia

   en.wikipedia.org/wiki/Rockwell_scale

   Very hard steel (e.g. chisels, quality knife blades): HRC 55–66 (Hardened High Speed Carbon and Tool Steels such as M2, W2, O1, CPM-M4, and D2, as well as many of the newer powder metallurgy Stainless Steels such as CPM-S30V, CPM-154, ZDP-189. There are alloys that hold a HRC upwards 68-70, such as the Hitachi developed HAP72.

9. Martensite - Wikipedia

   en.wikipedia.org/wiki/Martensite

   For a eutectoid steel (0.76% C), between 6 and 10% of austenite, called retained austenite, will remain. The percentage of retained austenite increases from insignificant for less than 0.6% C steel, to 13% retained austenite at 0.95% C and 30–47% retained austenite for a 1.4% carbon steel. A very rapid quench is essential to create martensite.