Important Applications of Ceramic
In this article, we discuss the 8 most important applications of ceramic.
1. Applications of Ceramic in Construction Industry
Ceramic-based building materials have an average service life of over a century and are highly resource-efficient at all stages of their life cycle. Their durability supports the optimization of raw materials with many advantages in the construction and housing sector.
Brick and Roof Tile
Brick and roof tile manufacturing is one of the most well-known uses of ceramics. Bricks and roof tiles have been used for centuries because of their proven ability to protect the house from the elements. Ceramic tiles and bricks are inert products made from natural materials, so they are non-toxic, do not emit volatile organic compounds, and provide a healthy indoor environment. Ideal for sustainable homes, bricks are highly fire resistant and provide insulation from sound, vibration, electricity, static electricity, and ionizing radiation.
Wall and Floor Tiles
Molded in an infinite number of designs and formats, ceramic wall and floor tiles are built on a 2,000-year tradition, providing durable, aesthetic, and technical solutions for private and public buildings. To do. Wall and floor tiles, as well as decorative features in the house, are no longer essential to providing hygiene. The new generation of coatings gives the tile the ability to destroy organic matter adhering to the surface of the tile and help water slide off. On the other hand, antibacterial tiles with a photo-activated antibacterial surface coating kill hospital bacteria. Ceramic tiles are very innovative. The new form of the ceramic sheet includes fiber-reinforced ceramics, ceramic composites with conductive layers for heating systems, internal porous layers for insulation and sound insulation, and strong, lightweight, and thin to minimize the environmental impact of tiles.
Vitrified Clay Drainage Pipes
Vitrified clay pipes, an important part of municipal infrastructure, safely and effectively transport wastewater from buildings and roads to treatment plants. The raw materials used to make clay pipes are completely natural, have heavy resources and have virtually unlimited reserves. Vitrified clay remains inert under extreme temperatures and chemical attacks and is completely recyclable if it eventually becomes unusable. Currently, up to 40% of the raw materials used to make vitrified clay pipes come from recycled clay products.
Sanitary ware
Ceramic wash basins, toilets, bidets, and shower trays, favored by architects and interior designers, are found in homes and buildings around the world. Increasingly innovative designs in the sanitary ware sector mean that ceramics can offer a vast range of products that cover almost all types of applications required by the market. Due to the light resistance of ceramics, ceramic sanitary ware does not fade or deteriorate over time. The glazing process also provides a smooth, easy-to-clean surface and optimal hygienic properties. Ceramic sanitary ware has made significant contributions to reducing common ailments and dramatically reducing the water consumption of household appliances.
Expanded Clay
Expanded Clay is a proven, high-quality, efficient, durable lightweight set suitable for a wide range of construction applications. Expanded clay consists of grains of different sizes, each with a ceramic shell carved around the bees. It is a durable building material filled with properties that improve the economic, social and environmental performance of a building or infrastructure throughout its life. Expanded clay has both low density and high strength. In addition, aggregates have many other important characteristics that make them “all-in-one” products with a wide range of properties essential for sustainable construction.
2. Applications of Ceramic in Consumer Goods
Ceramics, which are ubiquitous in consumer goods, offer a natural, affordable, and long-lasting selection of raw materials, with minimal environmental impact and a range of consumer goods conversions. The complex chemistry of many ceramics makes them easy to use at high temperatures and improves their robustness during high speeds during the manufacturing process. With unique properties such as wear resistance, chemical inertness, and dimensional stability, today’s ceramics guarantee the long life and low maintenance costs needed to keep pace with technological advances.
Tableware and Ornamental ware
Ceramic tables and ornaments, such as ceramics, stoneware, and ceramics, have long been part of our culinary ritual. Ceramics, which are kiln-baked using abundant natural resources such as clay and sand to produce these stone-like substances, have an amazing heritage throughout history and offer as many types of civilization as culture and cuisine. I’ve been doing it. From old vases, utensils, and haulers to today’s tableware, fine porcelain and hotel porcelain, the natural lifespan of porcelain continues to evolve over time and ensures that it remains the first choice for serving food. I will.
Household Appliances
Ceramics can withstand extremely high temperatures, making it an ideal material for cooking and heating appliances. Ceramic-coated frying pans are a common alternative to other, more controversial non-stick coatings. Ceramic water purifiers provide safe drinking water to millions of people around the world. These filters are trusted in the most demanding situations such as war zones and natural disasters.
3. Industrial Applications of Ceramics
Ceramics are durable, strong, and non-corrosive, in addition to their ability to withstand very high temperatures, making them suitable for many specific applications required in metallurgical processes, glass manufacturing, and many other major processes in all industries. It is essential. Gears used in steel making and quarrying often contain advanced ceramics due to their significantly longer wear, corrosion and thermal resistance than traditional metal gears.
Abrasives
Abrasives are a small but indispensable industry. Many of the complex machines needed in the industry, and smooth finishes in countless applications, from diamonds, watches, and furniture to kitchen equipment and aircraft, are polished, cut, drilled, or polished with abrasives. The European polishing industry has a significant impact on the productivity of other industries and service sectors such as steel, metal processing, automotive manufacturing, space, glass, construction, stone processing, shipbuilding, clean technology, machine manufacturing, wood processing, and defense industries.
Refractories
Refractories are essential to all high-temperature industrial processes. They serve three roles: mechanical strength, protection against corrosion, and insulation. Various refractories such as brick, monolithic, and high-temperature insulated wool are used in the lining of all reactors, transport vessels, or kilns. The capabilities of technical ceramics and refractories meet the critical needs of steel, aluminum, cement, glass, the chemical industry, environmental applications, and energy generation. All of these create some of the most corrosive hot environments in today’s industry. They take advantage of the improved energy efficiency, productivity, and metal quality that refractories and industrial ceramics bring to the processing of smelting, melting, and molten material processes.
Porcelain Enamel
Porcelain enamel, also known as vitreous enamel, is a high-tech coating that shares many features with ceramics. Like ceramic glazes, porcelain enamel is an amorphous, inorganic, non-metallic solid that is fired onto a substrate at high temperatures. Porcelain glazes are used to coat clay, and porcelain enamel is used to coat metal products such as hot water tanks, appliances, pots, frying pans, and sanitary ware. Porcelain enamel can be manufactured with a complete color palette that changes continuously between gloss and matte, between rough and smooth. In addition, the enamel coating is unaffected by weather and light exposure.
4. Applications of Ceramic in High Tech and Innovation
Ceramics have become an integral part of cutting-edge technology. Advanced technical ceramics are unique mechanical, electrical, thermal, and raw that enable their use in a variety of applications in the automotive industry, electronics, medical technology, energy and environment, and general equipment and mechanical engineering.
5. Applications of Ceramic in Healthcare
Medical, laboratory, and pharmaceutical equipment and ceramic components are widely used in implantable medical devices such as healthcare, crowns, bridges, and blanks for manufacturing dental implants, pacemakers, and hip replacements. Ceramic biomedical implants have low biocompatibility, abrasion resistance, chemical resistance, corrosion resistance, and allergy induction, making them an optimal solution to problems arising from illness, infections, and other complications, and health. We will continue to improve the performance of care.
6. Applications of Ceramic in Electronics
Ceramic substrates, circuit carriers, core materials, and many other components are used in the electronics industry. Ceramic heat sinks provide an optimal environment for high-power electronics, and the electrical insulation properties of ceramics allow them to be used in microchip, circuit board, and circuit breaker technologies. Combined with other unique properties, ceramic components are used in a wide range of demanding applications that ensure reliable functionality in aerospace technology and the automotive industry.
7. Applications of Ceramic in Security and Transportation
Technical ceramic applications in safety and protection include bulletproof vests and infrared night vision devices. The high thermal insulation and wear resistance of ceramics describe its use in jet engine turbine blades, disc brakes, and bearing components. Technical ceramics, which contribute to safety and reliability, are used in a wide range of applications.
8. Applications of Ceramic in Renewable Technology
Many of the features of renewable technology require high-quality products that can only be produced with high-quality friction, refractories, and industrial ceramics. The production of high-purity glass required for solar panels is one example, and the refractories used to manufacture silicon wafers are another example. Ceramic-based products are also widely used in wind turbines and other solar panel components such as anti-friction bearings, heat sinks, fuel cells, tension gauges, and insulation rings.