In the case of stainless steel, there are primarily two types of passivation according to the content of the main acid used in the chemical concentration: nitric passivation and citric passivation. The passivation process using citric acid is considered ecologically a little healthier, although currently the use of nitric acid as an oxidizing agent is still the most popular.

Depending on the process, several tanks of solution may be used to bathe the object, and finally a type of baking dries and finishes the method. It is not advisable to include different materials in the same process.

The passive layer is achieved by the reaction on the external surfaces of the object with the volume percentage of the acid in specially purified water; Consequently, the thickness of the passive layer is minimal. This means that any mistreatment of the protected surface, for example a small scratch, can cause the object to be vulnerable to reactions in the damaged area.

Also, due to the external reaction, intentional marks—such as laser engraving—prior to chemical baths, may be unfavorably affected.

Logically, if the impurities of the material are not successfully removed, either due to incorrect concentration of the reagents, or due to some other factor that prevents the effective purifying bath, including the quality of the water in use or incorrect preparation of the surface (Washing, degreasing, etc.), the impurities will probably be more visible when the liquids dry, as they may have been discovered but will not have been eliminated.

In recent times, although it may be a debatable assertion, electropolishing has also been used as the best passivation process in the stainless steel manufacturing industry. The reason is that Auger Electron Spectroscopy (AES) and Photoelectron Spectroscopy for Chemical Analysis (XPS) studies show a much superior passivating film in terms of chromium enrichment (due to the selective dissolution of iron from the alloy) and also with respect to its greater thickness (possibly due to the anodizing action of the process itself).

Electropolishing is a process that can remove external material, and therefore change the dimensions of a part. Also, the surface finish is different.

In the case of stainless steel, there are primarily two types of passivation according to the content of the main acid used in the chemical concentration: nitric passivation and citric passivation. The passivation process using citric acid is considered ecologically a little healthier, although currently the use of nitric acid as an oxidizing agent is still the most popular.

Depending on the process, several tanks of solution may be used to bathe the object, and finally a type of baking dries and finishes the method. It is not advisable to include different materials in the same process.

The passive layer is achieved by the reaction on the external surfaces of the object with the volume percentage of the acid in specially purified water; Consequently, the thickness of the passive layer is minimal. This means that any mistreatment of the protected surface, for example a small scratch, can cause the object to be vulnerable to reactions in the damaged area.

Also, due to the external reaction, intentional marks—such as laser engraving—prior to chemical baths, may be unfavorably affected.

Logically, if the impurities of the material are not successfully removed, either due to incorrect concentration of the reagents, or due to some other factor that prevents the effective purifying bath, including the quality of the water in use or incorrect preparation of the surface (Washing, degreasing, etc.), the impurities will probably be more visible when the liquids dry, as they may have been discovered but will not have been eliminated.

In recent times, although it may be a debatable assertion, electropolishing has also been used as the best passivation process in the stainless steel manufacturing industry. The reason is that Auger Electron Spectroscopy (AES) and Photoelectron Spectroscopy for Chemical Analysis (XPS) studies show a much superior passivating film in terms of chromium enrichment (due to the selective dissolution of iron from the alloy) and also with respect to its greater thickness (possibly due to the anodizing action of the process itself).

Electropolishing is a process that can remove external material, and therefore change the dimensions of a part. Also, the surface finish is different.