Highlighting recent advancements in ceramic AM that are coming out of academic labs and are influencing the future of the ...

Ceramics often have microstructure and grain sizes that affect material performance. It is possible to optimize microstructure and grain boundaries with ceramic processing parameters for specific ...

In critical fields such as aerospace, military, and industrial manufacturing, surface protection of components has been a longstanding challenge. Ceramic materials with high melting points, hardness, ...

The common engineering ceramic materials can be identified as Aluminium Oxide (Alumina), Silicon Carbide, Silicon Nitride, Sialon and Zirconia. These materials are classified as “Engineering” or ...

For a long time, the production of ceramic coatings has only been possible by means of sintering techniques conducted at more than 1,000 degrees Celsius. However, a novel spraying method, Powder ...

(Nanowerk Spotlight) Ceramics are an important class of materials with widespread applications in electronics and energy storage due to their high thermal, mechanical, and chemical stability.

Researchers from the Institute of Chemistry at the Russian Academy of Sciences have developed a method for synthesizing high-quality composite artificial bone for medical applications 1 by adapting an ...

Providing multiple functional roles simultaneously, the composition of seashells and bones gradually vary throughout their structure making them part of a group of materials called Functionally Graded ...

The worldwide demand for ceramic materials with wide-ranging applications is rising in the biomedical, aerospace industry, electronics, precision tools, and environmental fields. Advanced ceramics ...