Applications of Electroplating
Last Updated : 12 Apr, 2024
Electroplating refers to the process of coating a metal onto another metal or alloy with the help of an electric current. It is also known as electrochemical deposition or electrodeposition. In this article, we will learn about electroplating and some of its most important real-life applications.
What are Applications of Electroplating in Real Life?
Electroplating is a process of coating or plating a metal onto another. It is usually done to avoid metal corrosion or for ornamental purposes. Electroplating has an important role to play in our daily lives. It is a process that puts a thin layer of metal on things to make them last longer, look better, or work better.
- It enhances appearance, durability, and corrosion resistance.
- The process involves a cathode (object to be plated), an anode (metal for plating), and an electrolyte solution.
- Metal ions from the anode dissolve in the solution and deposit on the cathode.
- The thickness and quality of the plating can be controlled.
- It is widely used in industries like automotive, electronics, and jewelry.
Some common real life applications of electroplating :
- Jewellery Making
- Automotive Industry
- Electronics Manufacturing
- Aerospace Industry
- Medical Equipment
- Corrosion Protection
- Decorative Finishes
Jewellery Making
Electroplating is a popular method in jewelry making for applying a thin layer of precious metals like gold or silver over less expensive metals. This process enhances the appearance and value of jewelry. It allows for a variety of designs and finishes.
Beyond aesthetics, electroplating in jewelry also increases tarnish resistance. A layer of gold or rhodium can protect the underlying metal from oxidation and wear. This extends the jewelry's lifespan. This makes electroplated jewelry not only beautiful but also durable, maintaining its luster over time.
Automotive Industry
Electroplating is used to coat parts of cars and motorcycles, such as bumpers, rims, and engine components. This process not only improves the appearance but also enhances their resistance to corrosion and wear. Chrome plating, in particular, is favored for its glossy finish and durability, contributing to the vehicle's overall aesthetic appeal and longevity.
Electroplating also plays an important role in improving the functionality of certain automotive parts. For instance, plating with nickel can increase the hardness and resistance of parts to extreme temperatures, essential for components exposed to high stress or heat.
Electronics Manufacturing
Electroplating is useful in plating connectors, printed circuit boards (PCBs), and other components with metals like gold, silver, or copper. These metals improve electrical conductivity and ensure reliable connections between components. This process improves the performance and longevity of electronic devices, like smartphones and computers.
Electroplating also provides a protective layer that shields components from corrosion and wear. In environments with high humidity or varying temperatures, this helps in maintaining the functionality and efficiency of electronic devices. It ensures that our gadgets remain in working order.
Aerospace Industry
The aerospace industry uses electroplating to enhance the performance and durability of aircraft components. Metals like titanium and nickel are commonly used for plating parts that require high strength, lightweight, and resistance to extreme conditions. This process is essential for components that face harsh operational environments, including high speeds, temperatures, and pressures.
Electroplating not only improves the resilience and lifespan of these components but also contributes to the safety and reliability of aerospace vehicles. Whether for commercial airliners or space exploration vehicles, electroplating ensures that every part can withstand the demanding conditions of flight and space.
Medical Equipment
Electroplating is used in the manufacturing of medical devices and equipment like surgical instruments, implants, and diagnostic tools. Plating with metals like gold or silver can enhance biocompatibility. This makes sure that devices can be safely used in medical procedures or within the human body. This process is crucial for preventing infections and ensuring the longevity of medical implants.
Electroplating can also improve the functionality of medical instruments by enhancing their resistance to sterilization processes and corrosive biological fluids. This ensures that medical tools remain sharp, sterile, and durable.
Corrosion Protection
Electroplating is widely used for corrosion protection in various industries. By coating metal surfaces with a layer of corrosion-resistant metal, such as zinc or nickel, electroplating can significantly extend the life of structures and equipment. This is especially important in environments prone to rust or corrosion.
This protective layer acts as a barrier, preventing oxygen and moisture from reaching the underlying metal and triggering the corrosion process. As a result, buildings, ships, and industrial machinery can withstand the elements better. This helps in reducing maintenance costs and enhancing safety and reliability.
Decorative Finishes
Electroplating is also used to achieve decorative finishes on various items. By applying metals like chrome, gold, or copper, electroplating can transform the appearance of objects, adding a touch of elegance or a modern vibe. This versatility allows for customization and innovation in design, catering to different tastes and styles.
The electroplated layer also offers protection against wear and tear and makes sure that decorative items retain their beauty over time. Whether it's a door handle, a light fixture, or a belt buckle, electroplating combines art and science to create durable and attractive finishes.
Electroplating Summary
Electroplating is based on the following principle :
When two metals acting as electrodes are immersed in the salt of anode metal and a potential difference is created between them by supplying current, then the metal on the anode oxidizes and dissolves into the electrolyte salt and later gets reduced and deposit itself as a thin layer on the metal on cathode.
The process of electroplating is as followed:
- Electroplating involves coating an object with a thin layer of metal.
- It starts by dipping the object to be coated into a solution containing the metal ions.
- This object becomes the cathode, or the negatively charged electrode.
- The anode is positively charged, attracting the metal ions in the solution.
- When an electric current is passed through the solution, metal ions move towards the cathode (the object).
- These ions then settle on the object's surface, forming a metal coating.
- The thickness of the coating can be controlled by the current and time.
- After the process, the newly coated object is removed, rinsed, and dried.
- This method is used for many purposes, like improving appearance, resisting corrosion, and enhancing electrical conductivity.
Also, Check
Similar Reads
Real Life Applications of Electrons Electrons are the negatively charged particles orbiting an atom's nucleus. They are fundamental to the universe's structure and the operation of various phenomena in our daily lives. The study of electrons has led to revolutions in technology and science, reshaping our world over the past century. T
5 min read
Applications of Power Electronics Power Electronics has penetrated almost all fields. This trend is always ever-increasing, especially with the present trends and tools of new devices and integrated designs of power semiconductor devices and controllers. The study of Power electronics involves the processing of electric power for va
6 min read
Applications of Physics in Electronics Physics is the main pillar of discovering the rules and phenomena concerning electronic devices and their related circuits. This extends from studying the effect of electrons or electromagnetic fields to the numerous domains in which physics is applied. In this article, we will discuss the actual us
7 min read
Applications of Capacitor Capacitor are components in electronic circuits that store electrical energy in the form of an electric charge. It is a key feature in electronic devices. It acts like a mini storage unit for electrical charge. It helps devices manage power efficiently by making sure they operate smoothly without wa
6 min read
Applications of Static Electricity Static electricity is a phenomenon arising from the imbalance of electric charges within or on the surface of a material, often resulting in attractions, repulsions, or discharges. This article explores the nature, applications, and real-life implications of static electricity, covering its causes,
6 min read