Overview of Plating Metal Components With Electrolysis

Plating can be achieved in two ways, by hot dip galvanization or cold dip galvanization. These methods differ largely in the amount of heat used to bring the component into a liquid state and how quickly the components are allowed to cool. Hot dip galvanization uses a high concentration of an alloy that is heated until it becomes plated. Cold dip galvanization requires the use of a lower concentration of an alloy until the metal component is in a liquid state. Both methods have their advantages and disadvantages, and understanding these differences is important for plating applications.

What Can You Do About Overview Of Plating Metal Components With Electrolysis Right Now

plating metal

In order to apply plating metal to an alloy, you must create a plating bath. A plating bath consists of an electrolytic solution and an electrically conductive solution base. The electrically conductive base is usually composed of the appropriate amount of copper (or similar alloys), the proper amount of oxygen, and an appropriate concentration of zinc or other metallic ions. When these elements come into contact with each other, they create ions which transfer to the desired metal component.

Electrolysis is one of the most common methods used to create a plating bath, and is also the most commonly understood method of electroplating. The reason why this is the case is because this is the most familiar way people think about the process. The primary difference between electroplating and electrolysis is the frequency with which an electrical current is applied to the metal component being plated. Because of the frequency with which an electrical current is required, electroplating is often implemented using alternating current, which has the advantage of being less dangerous than direct current, despite the higher current levels generated.