First, let's define what a shaft is: A shaft is defined as the component that links the main parts of a product and is used in rotational operations. It must be able to withstand both bending moments and torques. Such a shaft is called a "shaft".

One important characteristic of linear guide rail lubricant is that it can effectively separate from water-based cutting fluids rather than mix with them. The anti-emulsification property of linear guide rail lubricant makes it suitable for machinery equipment with guide rail devices both in itself and around it. Linear guide rail lubricant is also applicable for the circulation lubrication of bearings and gears, etc.

Linear guide rail lubricant is particularly suitable for those devices where the hydraulic system of the device is combined with other mechanical components, and it is also suitable for hydraulic elevators and lifts, etc.

Linear guides have a wide range of applications and are often used in the mechanized automatic operations of bearings, such as imported machine tools, laser welding tools, and temperature control machines, etc. Of course, when using them, they need to be coordinated with the bearings. They form a complete set of matching systems. Therefore, in mechanical equipment with extremely high precision requirements, linear guides can play a major role.

When lubricating mechanical tools, the guide rail lubricant should minimize friction and even any unnecessary movement as much as possible, in order to ensure that the processed materials have a smooth surface. When the mechanical tools operate under low speed and high load conditions, the guide rail lubricant should not exhibit any adverse phenomena such as loss of adhesion. The guide rail lubricant fully meets and even exceeds the various stringent requirements for guide rail lubrication imposed by these mechanical equipment.