Tungsten is a refractory metal which is commonly used in certain alloys. These alloys have properties that are very beneficial for the machinability and wear resistance. They are also extremely hard and resist fracturing.
Generally, tungsten compositions vary from 90-97% tungsten. During their manufacture, tungsten is usually added to a matrix of metals. The result is a tungsten alloy, which is then used for a variety of applications.
This article explains the basic properties of tungsten alloys and discusses the major types of alloys that contain tungsten. It also discusses their various uses.
In addition to being a refractory metal, tungsten has the highest melting point of any pure metal. Therefore, it is important to control its concentration in order to ensure its proper use.
In addition to its high melting point, tungsten has great hardness, which makes it ideal for a variety of applications. As a result, tungsten alloys have gained popularity in the modern metallurgy industry.
The tungsten content of a Co-W alloy is highly concentrated. The concentration depends on many factors, including the pH and current density. An organic acid salt can be added to a tungsten alloy bath. A 0.1 molar ratio of tungsten to the acid salt is recommended.
A variety of additives can be used to improve the corrosion and wear resistance of an alloy. Some of the common additives include oxalic acid, citric acid, and tartaric acid.
For a tungsten-steel alloy to be considered suitable for industrial applications, it must possess excellent hardness and heat resistance. Moreover, it is essential for the alloy to be capable of maintaining a high degree of performance during usage.