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వాల్యూమ్ 12, సమస్య 5 (2022)

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Ceramics and Composites Made of Calcium Phosphate That are Biocompatible

Martins Randers

Calcium phosphate-based ceramics and composites have become an important class of biomaterials due to their biocompatibility, osteoconductivity, and ability to promote bone regeneration. In this article, we will discuss the properties and applications of calcium phosphate-based ceramics and composites, as well as the factors that influence their biocompatibility. Calcium phosphate-based ceramics and composites are materials that are composed primarily of calcium phosphate, which is the same mineral that makes up the majority of bone tissue. The most commonly used calcium phosphate ceramics are hydroxyapatite (HA) and tricalcium phosphate (TCP), both of which have been extensively studied for their biocompatibility and ability to promote bone regeneration. One of the key properties of calcium phosphate-based ceramics and composites is their biocompatibility, which refers to their ability to interact with living tissues without causing an adverse reaction. Biocompatibility is an essential property for biomaterials, as it ensures that the material will not harm the surrounding tissues and will be well-tolerated by the body.

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Ceramic Additive Manufacturing Using Thermoplastic Feedstocks

Martins Randers

Ceramics are widely used in various industries, from aerospace to medical devices, due to their unique properties such as high strength, hardness, and chemical resistance. Traditionally, ceramics have been manufactured from powders through a process called sintering, which involves heating the material to a high temperature to densify it. However, advancements in material science and engineering have led to the development of new methods for producing ceramics, including the use of thermoplastic feedstocks. Thermoplastics are a class of materials that soften and become moldable when heated and harden upon cooling. They are widely used in various applications, including packaging, automotive, and electronics. The use of thermoplastic feedstocks for manufacturing ceramics has several advantages over traditional powder processing methods, including lower processing temperatures, faster processing times, and greater control over the final shape and size of the ceramic product. The process of manufacturing ceramics from thermoplastic feedstocks involves several steps, including the preparation of the feedstock, the shaping of the material, and the sintering of the ceramic material.

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