fused quartz

简明释义

熔凝石英

英英释义

例句

1.The glassware made from fused quartz can withstand extreme temperatures without breaking.

由熔融石英制成的玻璃器皿能够承受极端温度而不会破裂。

2.Due to its thermal stability, fused quartz is ideal for high-temperature applications.

由于其热稳定性，熔融石英非常适合高温应用。

3.The optical fibers are often made from fused quartz to ensure low signal loss.

光纤通常由熔融石英制成，以确保低信号损失。

4.The laboratory used fused quartz to create high-precision optical components.

实验室使用熔融石英制造高精度光学元件。

5.In the semiconductor industry, fused quartz is used for making photomasks.

在半导体行业中，熔融石英用于制造光掩模。

作文

Fused quartz, known as 熔融石英 in Chinese, is a remarkable material that has found extensive applications in various fields due to its unique properties. This type of glass is produced by melting high-purity silica sand at extremely high temperatures, resulting in a non-crystalline solid that exhibits exceptional thermal and optical characteristics. One of the most significant advantages of 熔融石英 is its ability to withstand high temperatures without deforming or losing its structural integrity. This makes it an ideal choice for use in high-temperature environments such as laboratory equipment, semiconductor manufacturing, and even in the production of high-performance optics.The transparency of 熔融石英 is another critical feature that sets it apart from other materials. It has a wide transmission range of ultraviolet (UV) light, making it indispensable in applications that require UV radiation, such as photolithography and UV curing processes. In the field of optics, 熔融石英 is used to create lenses and prisms that provide superior clarity and minimal distortion, which is essential for high-precision instruments.Moreover, 熔融石英 has excellent chemical resistance, allowing it to be used in environments where it may be exposed to corrosive substances. This property is particularly valuable in the pharmaceutical and chemical industries, where maintaining the purity of materials is crucial. The durability of 熔融石英 also contributes to its longevity, reducing the need for frequent replacements and ultimately lowering operational costs.In addition to its practical applications, 熔融石英 is also a fascinating subject of study in materials science. Researchers are constantly exploring new ways to enhance its properties and discover innovative uses. For instance, advancements in nanotechnology have led to the development of 熔融石英 composites that incorporate nanoparticles, resulting in materials with improved strength and additional functionalities.Despite its many advantages, working with 熔融石英 requires specialized knowledge and techniques. The high melting point of silica necessitates the use of advanced furnaces and precise temperature control to ensure the quality of the final product. Furthermore, the fabrication of 熔融石英 components often involves intricate processes such as molding, machining, and polishing, each demanding a high level of skill and expertise.In conclusion, 熔融石英 is a versatile and valuable material that plays a vital role in various industries. Its exceptional thermal, optical, and chemical properties make it indispensable for applications ranging from scientific research to industrial manufacturing. As technology continues to advance, the potential uses for 熔融石英 will undoubtedly expand, paving the way for new innovations that harness its unique capabilities. Understanding the significance of 熔融石英 not only highlights its importance in modern technology but also inspires further exploration into the fascinating world of materials science.

熔融石英是一个显著的材料，由于其独特的性质，在各个领域得到了广泛应用。这种玻璃是通过在极高温度下熔化高纯度的二氧化硅砂而生产的，形成一种非晶固体，展现出卓越的热学和光学特性。熔融石英的一个显著优势是其能够承受高温而不变形或失去结构完整性，这使它成为在高温环境中使用的理想选择，如实验室设备、半导体制造，甚至在高性能光学产品的生产中。熔融石英的透明度是另一个关键特性，使其与其他材料区分开来。它具有宽广的紫外线（UV）光透过率，这使其在需要UV辐射的应用中不可或缺，如光刻和UV固化过程。在光学领域，熔融石英被用于制造提供卓越清晰度和最小失真的镜头和棱镜，这对于高精度仪器至关重要。此外，熔融石英具有优异的化学抗性，使其能够在可能暴露于腐蚀性物质的环境中使用。这一特性在制药和化工行业尤为宝贵，因为保持材料的纯度至关重要。熔融石英的耐用性也有助于其长寿命，减少了频繁更换的需求，从而降低了运营成本。除了其实际应用外，熔融石英也是材料科学研究的一个迷人课题。研究人员不断探索增强其特性和发现创新用途的新方法。例如，纳米技术的发展导致了熔融石英复合材料的开发，这些复合材料结合了纳米颗粒，产生了强度提高和附加功能的材料。尽管熔融石英有许多优点，但与之相关的工作需要专业知识和技术。二氧化硅的高熔点需要使用先进的炉子和精确的温度控制，以确保最终产品的质量。此外，熔融石英组件的制造通常涉及复杂的过程，如成型、机械加工和抛光，每一步都需要高水平的技能和专业知识。总之，熔融石英是一种多功能且有价值的材料，在各个行业中扮演着重要角色。其卓越的热学、光学和化学特性使其在从科学研究到工业制造的应用中不可或缺。随着技术的不断进步，熔融石英的潜在用途无疑将扩大，为利用其独特能力的创新铺平道路。理解熔融石英的重要性不仅突显了其在现代技术中的重要性，还激励人们进一步探索材料科学的迷人世界。