Tungsten steel

Tungsten steel is any steel that has tungsten as its alloying element with characteristics derived mostly from the presence of this element (as opposed to any other element in the alloy). Common alloys have between 2% and 18% tungsten by weight along with small amounts of molybdenum and vanadium which together create an alloy with exceptional heat, corrosion, and wear resistance. Tungsten is one of the oldest elements used for alloying steel. It forms a very hard carbide and iron tungstite.

This process of adding a carbide is done via a process named sintering. This process is where carbide powder is added to the tungsten and steel and then placed in a furnace for a holding time and then removed and left to cool.

High tungsten content in the alloy, however, tends to cause brittleness and makes it subject to fracturing rather than bending.^[1] The SAE designation for all tungsten steels consist of four numbers beginning with the number 7, in the format 7XXX.

Tungsten steel also has a greater density than regular stainless steel, tungsten steel, also known as cemented carbide has a density of 14.8 g/cm^3. whereas regular stainless steel maintains a density of 7.9 g/cm^3

Tungsten steel is used for manufacturing micro-drill bits, high-durability self-sharpening rotary cutting blades, and rocket engine nozzles, among many other applications.

References

1. Mel Schwartz (2002-04-29). Encyclopedia of Materials, Parts and Finishes, Second Edition. CRC Press. p. 819. ISBN 978-1-4200-1716-8.

2. SNAS machining , E. (2023, March 27). Difference between tungsten steel and stainless steel. ManufacturingTomorrow. https://www.manufacturingtomorrow.com/news/2023/03/26/difference-between-tungsten-steel-and-stainless-steel/20331/

3.High-speed steel vs Tungsten Steel. Stanford Advanced Materials. (n.d.). https://www.samaterials.com/content/high-speed-steel-vs-tungsten-steel.html