NEW YORK, United States, Sept. 15, 2022 (GLOBE NEWSWIRE) — Advanced ceramics differ from traditional ones like brick and porcelain because of their superior strength, higher service temperatures, improved toughness, and customizable properties.

These materials can replace metals in applications where their lower density and higher melting temperatures improve efficiency, productivity and speed of operation. Advanced Ceramics are superior to metals and polymers due to their excellent stability, toughness, chemical inertness, electrical properties and suitability for mass production. The distinction between advanced ceramics and ordinary ceramics lies in the nature of the bond between ceramic particles.

The ability of advanced ceramics to work at temperatures well above those of metals is one of their most attractive properties. Advanced applications include engine components, cutting tools, valves, bearings and equipment used in chemical processes. Superconductors, substrates, magnets, capacitors and transducers are examples of electronic applications for ceramics with low coefficients of thermal expansion and fixed thermal conductivity. The increasing demand in the medical industry and as a replacement for metals and plastics is the key factor for the expansion of the market.

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An alternative to metal and plastic and the high demand in the healthcare segment to drive the advanced ceramics market

As an engineered material, these advanced ceramics outperform metal-based systems in several ways. These properties make advanced ceramics practical in terms of performance and cost effectiveness. These properties include excellent abrasion resistance, superior high temperature strength, chemical inertness, high processing speeds, and dimensional stability. Due to their hardness, physical stability,…


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