Why Do Industries Pick Advanced Ceramics Over Decorative Ceramics?

15 December 2022

Numerous industries utilise a wide array of materials in producing parts and products. Some of the materials they often take advantage of are metals, plastics, and timber. But one material that industries also use in creating different items is ceramic.

A ceramic is an inorganic solid material made from either metal or non-metal compounds. It is often shaped and hardened by exposing its compounds to high heat.

Different variations of ceramic can be maximised by industries. Many household items like pots and vases are made from decorative ceramics. As for industrial works and applications, they take advantage of advanced or technical ceramics since these materials boast properties that can match their intended applications.

A Quick Overview of Advanced Ceramics

Advanced ceramics are versatile compounds often made by mixing and firing together precursor ceramic powders. Most of the powders used for advanced ceramics are highly pure synthetic, making their qualities somehow a lot stronger and more long-lasting than decorative and traditional ceramics. Some ceramic powders used for advanced ceramics are aluminium oxide, silicon nitride, and silicon carbide.

The use of synthetic powders in creating advanced ceramics allows them to boast great qualities, especially in terms of their thermal, physical, and electrical properties. Advanced ceramics, for once, have great resistance to corrosion, melting, stretching, distortion, and reshaping. They are also versatile, making them very useful in a lot of applications from various industries. Advanced ceramics are likewise maximised by industries as they are cost-effective.

All these properties of advanced ceramics entice industries to pick them over decorative ceramics and other materials like glass and metals.

Advanced Ceramics Primary Applications

Advanced ceramics can be maximised in a lot of applications.

Heavily pressured parts and components in machines, for instance, can only be generated out of advanced ceramics. The chemical reluctance, thermal qualities, hardness, dielectric strength, and metallisation of advanced ceramics allow them to be useful in creating cutting tools, nozzles, pins, and other core parts of these things.

Advanced ceramics can generate seals, tubes, impellers, and other components of devices for chemical applications. Their production is possible as advanced ceramics can overcome the external pressures of chemicals, liquids, heat, and other similar elements. These ceramics also do not wear severely even when exposed to chemicals and heat.

Many more devices and parts can be made from advanced ceramics due to their hardness, thermal and chemical stability, and high levels of strength. These devices include shot blast nozzles, paper dewatering foils, ceramic weld rolls, extrusion dies, thermocouple protection sheaths, shafts, liners, pump plungers, milling media, lift pins, blades, and bushings. All these things can be produced once industries hire the right manufacturing company.

Industries Maximising Advanced Ceramics

Many industries use advanced ceramics as their primary materials for their parts and products.

The aerospace industry, for once, uses advanced ceramics in producing thermal protection shields, turbine components, exhaust systems, and engine systems. The automotive industry is another industry that maximises advanced ceramics in creating oxygen sensors, glow plugs, sparks, knocking sensors, fuel injection systems, brake discs, and pump components.

Medical sensors, implants, and other medical-related devices can also be made from advanced ceramics thanks to their natural chemical inertness and wear resistance. Other industries that take advantage of advanced ceramics are solar, oil and gas, electronics, and food service industries. To buy advanced ceramics products, you can contact us at Amon Engineering.

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