vitrifiable

简明释义

[ˈvɪtrɪfaɪəbl][ˈvɪtrəˌfaɪəbl]

adj. 可玻璃化的

英英释义

Capable of being converted into glass or a glass-like substance through heat and melting.

能够通过加热和熔化转化为玻璃或类似玻璃的物质。

单词用法

vitrifiable materials

可玻璃化材料

vitrifiable substances

可玻璃化物质

vitrifiable waste

可玻璃化废物

vitrifiable glass

可玻璃化玻璃

同义词

fusible

可熔化的

The material is fusible at high temperatures.

该材料在高温下是可熔化的。

meltable

可融化的

Certain types of clay are meltable and can be vitrified.

某些类型的粘土是可融化的,并且可以被玻璃化。

glassy

玻璃状的

The glassy surface of the pottery indicates it has been vitrified.

陶器的玻璃状表面表明它已经被玻璃化。

反义词

non-vitrifiable

不可玻璃化的

The material is classified as non-vitrifiable due to its high melting point.

由于其高熔点,该材料被归类为不可玻璃化的。

crystalline

晶体的

Crystalline structures are often more stable than their non-vitrifiable counterparts.

与不可玻璃化的对应物相比,晶体结构通常更稳定。

例句

1.A lacy pattern painted on light glass with vitrifiable paint and fired.

灰色装饰图案在淡色玻璃上用可''。'玻'。''''。'化'。''颜料绘成并经烧结后形成的花边图案。

2.A lacy pattern painted on light glass with vitrifiable paint and fired.

灰色装饰图案在淡色玻璃上用可''。'玻'。''''。'化'。''颜料绘成并经烧结后形成的花边图案。

3.The ceramic materials used in this project are highly vitrifiable, which allows them to be transformed into glass-like structures.

这个项目中使用的陶瓷材料具有很高的可玻璃化性,这使得它们能够转变为玻璃状结构。

4.During the firing process, it is crucial that the materials are vitrifiable to ensure proper melting.

在烧制过程中,材料必须是可玻璃化的,以确保适当的熔化。

5.Researchers are exploring new vitrifiable materials that could improve the durability of glass products.

研究人员正在探索新的可玻璃化材料,这些材料可以提高玻璃产品的耐用性。

6.In the production of tiles, vitrifiable clays are essential for achieving the desired finish.

在瓷砖生产中,可玻璃化的粘土对于达到所需的表面效果至关重要。

7.The vitrifiable components in this mixture help to create a strong bond when heated.

这个混合物中的可玻璃化成分在加热时有助于形成强大的结合。

作文

In the realm of materials science, the term vitrifiable refers to substances that can be transformed into a glass-like state when subjected to heat. This property is particularly significant in various industries, including ceramics, glass manufacturing, and even in the production of certain types of polymers. Understanding the concept of vitrifiable materials is essential for engineers and designers who aim to innovate and improve the functionality and aesthetics of their products.The process of vitrification involves the melting of a material at high temperatures, followed by rapid cooling. This rapid cooling prevents the formation of crystalline structures, resulting in a non-crystalline, amorphous solid. The ability of a material to become vitrifiable is influenced by its chemical composition and the conditions under which it is processed. For example, many types of clay are vitrifiable when fired at sufficiently high temperatures, allowing them to be used in durable ceramic products.One of the most common applications of vitrifiable materials is in the production of porcelain. Porcelain is made from kaolin clay, feldspar, and quartz, all of which exhibit vitrifiable properties. When these materials are heated to around 1200 degrees Celsius, they undergo a transformation that results in a hard, translucent product. This process not only enhances the mechanical strength of the porcelain but also gives it a beautiful, glossy finish.Another example can be seen in the field of waste management, where vitrifiable materials are utilized to immobilize hazardous waste. By converting toxic materials into a vitrifiable form, they can be safely stored or disposed of without posing a threat to the environment. This method of waste treatment is gaining popularity due to its effectiveness in reducing leachability and preventing contamination of soil and groundwater.Moreover, the use of vitrifiable materials extends to the art world, particularly in glassblowing and sculpture. Artists often seek out vitrifiable substances to create unique glass artworks that reflect light and color in captivating ways. The versatility of vitrifiable materials allows artists to experiment with different shapes, sizes, and textures, leading to innovative designs that push the boundaries of traditional art forms.In conclusion, the significance of vitrifiable materials cannot be overstated. Their unique ability to transition into a glass-like state opens up a myriad of possibilities across various fields, from industrial applications to artistic endeavors. As technology continues to advance, the exploration and application of vitrifiable materials will undoubtedly lead to exciting new developments, enhancing both functional and aesthetic aspects of our everyday lives. Understanding the properties and potential of vitrifiable substances is crucial for anyone involved in material science, engineering, or art, as it paves the way for innovation and creativity in the modern world.

在材料科学领域,术语vitrifiable指的是在高温下可以转变为玻璃状状态的物质。这一特性在陶瓷、玻璃制造甚至某些类型聚合物的生产等多个行业中尤为重要。理解vitrifiable材料的概念对工程师和设计师来说至关重要,他们旨在创新并改善其产品的功能和美学。玻璃化过程涉及在高温下熔化材料,然后迅速冷却。这种快速冷却防止了晶体结构的形成,从而产生非晶态的固体。材料成为vitrifiable的能力受其化学成分和加工条件的影响。例如,许多类型的粘土在足够高的温度下烧制时是vitrifiable的,使其能够用于耐用的陶瓷产品。vitrifiable材料最常见的应用之一是在瓷器的生产中。瓷器由高岭土、长石和石英制成,这些材料都具有vitrifiable的特性。当这些材料加热至约1200摄氏度时,它们发生转变,形成一种坚硬、半透明的产品。这个过程不仅增强了瓷器的机械强度,还赋予其美丽的光泽。另一个例子可以在废物管理领域看到,其中使用vitrifiable材料来固定危险废物。通过将有毒材料转化为vitrifiable形式,可以安全地储存或处置,而不会对环境构成威胁。这种废物处理方法因其有效减少浸出性和防止土壤及地下水污染而越来越受到欢迎。此外,vitrifiable材料的使用还延伸到艺术领域,特别是在吹玻璃和雕塑中。艺术家们经常寻求vitrifiable物质,以创造独特的玻璃艺术作品,反射出迷人的光线和色彩。vitrifiable材料的多样性使艺术家能够尝试不同的形状、大小和纹理,导致创新设计突破传统艺术形式的界限。总之,vitrifiable材料的重要性不容小觑。它们独特的转变为玻璃状状态的能力在各个领域开辟了无数可能性,从工业应用到艺术创作。随着技术的不断进步,vitrifiable材料的探索和应用无疑将带来令人兴奋的新发展,提升我们日常生活的功能和美学方面。理解vitrifiable物质的属性和潜力对任何参与材料科学、工程或艺术的人来说都是至关重要的,因为这为现代世界中的创新和创造力铺平了道路。