A stainless steel ball is a spherical-shaped ball that […]
A stainless steel ball is a spherical-shaped ball that is made of a type of steel that contains at least 10.5% chromium. This type of steel is known as "stainless steel" because it is resistant to corrosion and rust. Stainless steel balls are used in a variety of applications, including valves, bearings, and pumps. They are also used in the aerospace, automotive, and medical industries. Stainless steel balls are known for their durability, corrosion resistance, and ability to withstand high temperatures. They are also non-magnetic, which makes them suitable for use in electronic and magnetic applications.
Stainless Steel Precision Bearing Balls
Stainless steel balls are typically forged by heating a piece of stainless steel to its melting point and then shaping it into a ball using a die or mold. The ball is then cooled and hardened to its final shape. This process is known as "cold forging " or "cold heading" and it is a method of shaping metal by compressing it between two dies at room temperature. This method results in a ball that has a very consistent size, shape, and surface finish.
Stainless steel precision bearing balls are spherical-shaped balls that are used in precision bearings. They are made of a type of stainless steel that contains at least 10.5% chromium and is highly resistant to corrosion and rust. These balls are typically hardened to a specific Rockwell hardness to provide the required level of hardness and durability. They are also ground to a high level of precision, typically to within a few millionths of an inch, to ensure the smooth and consistent operation of the bearing.
These precision bearing balls are commonly used in high-speed and high-precision applications, such as in aerospace, medical equipment, and precision instruments. They are also used in other applications that require a high level of corrosion resistance and durability, such as in the food and chemical processing industries. The balls are also non-magnetic, which makes them suitable for use in electronic and magnetic applications.
The precision bearing balls can be produced by several methods such as cold forging, stamping, or grinding. The method of production used will depend on the size and tolerance required for the specific application.
