Applications Of Ceramics In Automobile Manufacturing
A report shared by ReportLinker reveals that the world’s automotive ceramics market size will reach a value of $2.7 billion by 2027, marking a growth of 8.9% CAGR, according to news on GlobeNewswire. Ceramics are lightweight, durable, resistant to corrosion, withstand high temperatures, and exhibit excellent wear and tear-resistant properties. That’s why applying ceramic materials to car exteriors is one of the best ways to avoid scratches to car paint, as it adds a layer of protection.
However, to make the most of ceramics, auto manufacturers rely on advanced or engineered ceramics because conventional ones are brittle. If you’re unfamiliar with automotive ceramics, read on to understand a few ceramics applications in automobile manufacturing.
Production of Vehicle Brake Pads
While ceramic brake pads have been in existence since the 80s, they are still a new technology in the automotive world. These pads are made of dense ceramic material embedded with copper fibers that make them resilient to friction when drivers apply brakes to stop. Compared to metallic brake pads, ceramic brake pads guarantee better performance and enhanced safety. Other benefits linked to ceramic brake pads include resistance to abrasion and corrosion, durability, quietness, and reduced brake dust.
Coating your vehicle with ceramic is an excellent way to keep it looking fresh. Typically, ceramic car coating relies on nanotechnology, forming tiny particles into a thin, transparent layer. This layer works as a sealant, sealing the pores in automobile paint to form hydrophobic properties.
But before you can apply a ceramic coat, make sure you learn the different aspects of ceramic coating from what it can and can’t do. For instance, ceramic coating can protect your car’s exterior paint from ultraviolet rays, chemicals, light scratches, and damage from extreme heat due to its wear and tear-resistant properties. On the other hand, ceramic coating is difficult to apply, it’s expensive, and doesn’t provide a permanent barrier to exterior damage.
The latest ceramic materials designed for automobile engines consist of inorganic non-metal components like zirconia. One of the key properties of zirconia ceramics is that it’s stronger than other ceramic materials. In addition to being tough, zirconia ceramics can withstand temperatures of up to 2,400 degrees celsius, and it has high density and low thermal conductivity. Because of its excellent insulation, using zirconia ceramics to design car engines can help reduce exhaust energy, resulting in increased automobile efficiency. This advanced ceramic material can also help design engines that start faster than previous models.
The use of ceramics in the automotive sector has become popular, and it’s easy to see why. Automotive or advanced ceramics are durable, lightweight, resistant to corrosion and friction, and have low thermal conductivity. Additionally, automobile ceramics are resistant to wear and tear, making them a perfect choice for coating auto parts and exterior paint.