Fusibility: meaning, definitions and examples
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fusibility
[ fjuzɪˈbɪlɪti ]
material science
Fusibility refers to the ability of a substance to melt or be melted. It is a critical property in material science and engineering, particularly when considering materials for manufacturing processes. Fusibility affects how metals and other materials behave when subjected to heat, influencing casting, forging, and welding processes. High fusibility suggests that a material will transition from solid to liquid state at relatively low temperatures, making it easier to work with during industrial applications. Understanding fusibility can assist in selecting materials for specific applications based on their thermal properties.
Synonyms
liquefaction, meltability, softening
Examples of usage
- The fusibility of metals is crucial for casting.
- High fusibility makes this alloy ideal for welding.
- Testing fusibility can reveal information about a material’s melting point.
Translations
Translations of the word "fusibility" in other languages:
🇵🇹 fusibilidade
🇮🇳 पिघलने की क्षमता
🇩🇪 Schmelzbarkeit
🇮🇩 fusibilitas
🇺🇦 плавкість
🇵🇱 topnistość
🇯🇵 融解性
🇫🇷 fusibilité
🇪🇸 fusibilidad
🇹🇷 erime özelliği
🇰🇷 융해성
🇸🇦 قابلية الانصهار
🇨🇿 tavitelnost
🇸🇰 taviteľnosť
🇨🇳 熔融性
🇸🇮 taljivost
🇮🇸 bræðsluhæfi
🇰🇿 балқу қасиеті
🇬🇪 გალღობის უნარი
🇦🇿 meltəbilərlik
🇲🇽 fusibilidad
Etymology
The term 'fusibility' is derived from the Latin word 'fusus,' which means 'to pour' or 'to melt.' This term has been used in various scientific and engineering contexts to describe not just the ability to melt, but also the ease with which a substance can transition from a solid state to a liquid. The concept of fusibility has been explored since ancient times, particularly by metallurgists who needed to understand how different metals behaved under heat in order to improve techniques in metalworking and casting. Over centuries, the term has evolved alongside advancements in material science, enabling more precise definitions related to melting points and thermal behaviors of various materials. Today, fusibility is an essential factor for engineers and scientists when developing materials for higher efficiency and utility in practical applications.