İnsanoğlu, varlığının başlangıcından itibaren doğa ile iç içe olmuş ve doğayı taklit ederek çeşitli aletler icat etmiştir. Bu icatların gelişiminde ise en etkili faktör malzeme bilimi olmuştur. Son yıllarda gelişen teknolojilerle malzeme biliminin önemi artmış ve yeni malzemelerin bulunması zorunlu hale gelmiştir. Seramik malzemeler de insanoğlu için her zaman büyük öneme sahip olmuştur. İleri teknoloji seramikleri uzun ömürlü kullanımı, yüksek performansı, üstün özellikleri ve uygun maliyeti sayesinde birçok ticari uygulamada kullanılmaktadırlar. Titanyum diborür (TiB2), yüksek sertlik, yüksek ergime noktası, mükemmel aşınma ve korozyon direnci gibi özellikleri ile ileri teknoloji seramikleri arasında oldukça önemli bir yere sahiptir. Aşınmaya dayanıklı parçaların üretimi, alüminyum elektrolizi, koruyucu film tabakaları, askeri uygulamalar (zırh vb.) gibi çok çeşitli uygulama alanları bulunmaktadır. Bu makalede, ileri teknoloji seramikler arasında oldukça önemli bir yere sahip olan titanyum diborürün (TiB2) fiziksel ve kimyasal özellikleri, üretim yöntemleri, kullanım alanları ve son yıllarda yapılmış çalışmalar kısaca sunulmaktadır.
From the beginning of his existence, the human Son has been inherent with nature and has invented various tools by imitating nature. In the development of these inventions, the most influential factor was the material science. With the advanced technologies in recent years, the importance of material science has increased and the finding of new materials has become compulsory. Ceramic materials have always been of great importance for mankind. Advanced technology ceramics are used in many commercial applications thanks to their long-lived use, high performance, superior features and affordable costs. Titanium diboride (TiB2) has a very important place among high hardness, high ergime point, excellent stretching and corrosion resistance and advanced technology ceramics. Production of scratch-resistant parts, aluminum electrolysis, protective film layers, military applications (arms, etc.) There are many different areas of application. In this article, we briefly present the physical and chemical properties of titanium diboride (TiB2), which has a very important place among advanced technology ceramics, the manufacturing methods, uses and recent studies.
Humanity has been communed with nature since the beginning of its existence and has invented various instruments by imitating the nature. The most effective factor in the development of these inventions was material science. The importance of the material science has increased with the developing technologies in recent years, and it has become mandatory to find new materials. Ceramic materials have always been of great importance for human. Advanced technology ceramics are used in many commercial applications due to their long life, high performance, superior properties and cost-effectiveness. Titanium diboride (TiB2) with its hardness, high melting point, excellent abrasion and corrosion resistance has a very important place among advanced technology ceramics. There are a wide range of applications such as the production of wear-resistant parts, aluminum electrolysis, protective film layers, military applications (armor), etc. In this article, the physical and chemical properties, production methods, usage areas and the studies carried out in recent years of titanium diboride (TiB2), which has a very important place among the advanced technology ceramics, are briefly presented.
Alan : Fen Bilimleri ve Matematik; Mühendislik; Sağlık Bilimleri
Dergi Türü : Ulusal
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