Incombustible: meaning, definitions and examples
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incombustible
[ ɪnˈkʌmbəstəbl ]
fire resistance
Incombustible refers to a material or object that cannot catch fire or burn. This property makes incombustible materials valuable in construction and fireproofing applications. They are often used in the manufacturing of safety equipment, airplane interiors, and fireproof safes. The term is commonly applied to substances like certain metals, stone, and specialized treated materials. Incombustible materials contribute to safety by reducing the risk of fire hazards in various environments.
Synonyms
fireproof, flame-resistant, insusceptible, non-flammable
Examples of usage
- Concrete is an incombustible material used in buildings.
- Firefighter uniforms are often made from incombustible fabrics.
- The incombustible nature of steel makes it ideal for skyscrapers.
- Many fireproof safes are constructed with incombustible components.
Translations
Translations of the word "incombustible" in other languages:
🇵🇹 incombustível
🇮🇳 अग्नि-प्रतिरोधी
🇩🇪 nicht brennbar
🇮🇩 tidak terbakar
🇺🇦 незапальним
🇵🇱 niepalny
🇯🇵 不燃性の (funensei no)
🇫🇷 incombustible
🇪🇸 incombustible
🇹🇷 yanmaz
🇰🇷 불연성의 (bulyeonseong-ui)
🇸🇦 غير قابل للاحتراق
🇨🇿 nehořlavý
🇸🇰 nehorľavý
🇨🇳 不燃的 (bù rán de)
🇸🇮 negorljiv
🇮🇸 óbrennanlegt
🇰🇿 жанбайтын
🇬🇪 უხანძრო
🇦🇿 yanmaz
🇲🇽 incombustible
Word origin
The word 'incombustible' originates from the Latin root 'comburere', which means 'to burn up'. The prefix 'in-' denotes negation, so the term literally means 'not able to be burned'. Its usage in English traces back to the late 17th century, as fire safety became an important concern during the era of industrialization. As construction and manufacturing evolved, it became crucial to identify materials that could withstand high temperatures and fire exposure. Consequently, the term found its place in both scientific and everyday language, emphasizing the importance of fire-resistant materials in various applications. It has since become a standard descriptor in safety regulations and building codes, reflecting the ongoing advancements in material science and fire safety technology.