Amorphous materials 释义:
非晶材料,无定形材料。
非晶材料是一类无规则结构的物质,没有晶体的结晶点阵结构,所以具有高黏度、高电导率、高化学活性等特殊性能。
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英语范文:
With the development of science and technology, amorphous materials have become increasingly important. They are widely used in various fields, such as electronics, medicine, and energy. In addition, amorphous materials can also be used to create new products and improve the performance of existing products. Therefore, it is essential to continue researching and developing new amorphous materials to meet the needs of society and promote technological progress.
翻译:随着科技的发展,非晶材料变得越来越重要。它们被广泛应用于电子、医疗和能源等领域,还可以用来创造新产品和提升现有产品的性能。因此,继续研究和开发新的非晶材料以满足社会的需求和推动技术进步是至关重要的。
Amorphous materials are a type of material that has no long-range periodicity. They are often characterized by a random distribution of atoms or molecules and lack of long-range order. This unique structure gives amorphous materials unique properties that cannot be found in crystalline materials. For example, amorphous materials are often highly viscous and have high electrical conductivity. They can also be highly reactive and can form new chemical bonds quickly. Therefore, amorphous materials have opened up new possibilities for the development of new materials and products.
在英语作文中,可以使用以下句子来描述 amorphous materials:
Amorphous materials are a type of material that cannot be shaped into a regular shape or crystal structure. They are often characterized by a lack of long-range order and a random distribution of atoms or molecules. This unique structure gives them unique properties that make them suitable for a wide range of applications.
非晶材料是一种无法被塑造成常规形状或晶体结构的一类材料。它们通常缺乏长程有序性,原子或分子的分布也具有随机性。这种独特结构赋予了它们独特的性质,使其适合于广泛的应用领域。
Amorphous Materials
Amorphous materials are a type of material that does not have a definite shape or structure. They are characterized by a lack of long-range order, which means that the atoms or molecules do not have a regular arrangement. This lack of order results in a variety of unique properties that make amorphous materials useful in many different applications.
One of the main advantages of amorphous materials is their flexibility. Because they lack a definite shape, they can be shaped into various forms without losing their original properties. This makes them suitable for use in many different types of products, such as coatings, films, and foams. Another advantage of amorphous materials is their high strength and toughness. They can withstand high loads without breaking or cracking, making them suitable for use in structural applications.
In addition to their mechanical properties, amorphous materials can also exhibit interesting electrical properties. For example, they can have high electrical conductivity or high insulation properties, depending on their composition and manufacturing process. This makes them suitable for use in various types of electronic devices, such as sensors, actuators, and batteries.
In conclusion, amorphous materials are a versatile type of material with a wide range of potential applications. Their unique properties and flexibility make them an interesting and exciting area of research and development.
Amorphous materials
Amorphous materials are materials that lack long-range order, meaning that their atoms or molecules do not have a regular arrangement. This lack of order results in a variety of unique properties that make amorphous materials interesting and useful in many different contexts.
One of the most prominent properties of amorphous materials is their flexibility. Because they lack a structured arrangement, amorphous materials can easily deform without breaking, making them excellent candidates for use in clothing, sports equipment, and other applications that require flexibility and durability.
Another interesting property of amorphous materials is their ability to absorb and store energy. This property makes them excellent candidates for use in shock absorbers, automotive components, and other applications that require energy absorption and dissipation.
In addition to their unique physical properties, amorphous materials can also be used for their chemical properties. For example, they can be used as catalysts in chemical reactions, increasing the efficiency and selectivity of these reactions.
In conclusion, amorphous materials are fascinating materials that possess a variety of unique properties that make them interesting and useful in many different contexts. Their flexibility, ability to absorb and store energy, and potential for use in catalysis make them excellent candidates for further research and development.
(由于字数限制,这篇文章主要涵盖了amorphous materials的基本定义、主要特性、应用场景以及总结,全文约360字,如果需要更多信息,可以进一步查阅相关资料。)
