Vitrifaction: meaning, definitions and examples
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vitrifaction
[ vɪtrɪfəˈkeɪʃən ]
scientific process
Vitrification is a process that involves the transformation of materials into a glass-like state. This occurs when a substance is heated to a point where it melts and subsequently cools down without forming a crystalline structure. Vitrification is widely used in various fields, including materials science, geology, and nuclear waste management, as it helps to stabilize hazardous materials for safe disposal. The glassy state attained during vitrification enhances the durability and longevity of the material, making it resistant to environmental factors such as water and chemical leaching.
Synonyms
casing, glassification, glassing.
Examples of usage
- The vitrification of nuclear waste minimizes environmental risks.
- Researchers are studying the vitrification of certain minerals.
- Vitrification is essential in the production of certain ceramics.
- The glassy material formed through vitrification is often used in construction.
Translations
Translations of the word "vitrifaction" in other languages:
🇵🇹 vitrificação
🇮🇳 विट्रीफिकेशन
🇩🇪 Vitrifikation
🇮🇩 vitrifikasi
🇺🇦 вітрифікація
🇵🇱 witrifikacja
🇯🇵 ガラス化
🇫🇷 vitrification
🇪🇸 vitrificación
🇹🇷 vitreleşme
🇰🇷 유리화
🇸🇦 تزجيج
🇨🇿 vitrifikace
🇸🇰 vitrifikácia
🇨🇳 玻璃化
🇸🇮 vitrifikacija
🇮🇸 glerun
🇰🇿 шыныға айналдыру
🇬🇪 ვიტრიფიკაცია
🇦🇿 vitrifikasiya
🇲🇽 vitrificación
Etymology
The term 'vitrification' originates from the Latin word 'vitrum', which means glass. The concept began to develop in scientific literature during the early modern period as researchers sought to understand the properties of glass and its formation processes. As industrial practices advanced, the relevance of vitrification became more prominent, especially in the fields of ceramics, glass-making, and later in the disposal of radioactive materials. The application of vitrification in nuclear science significantly accelerated in the late 20th century, as countries sought effective solutions to manage radioactive waste. Today, vitrification remains a vital process in both industrial applications and environmental safety.