fused silica

简明释义

石英玻璃

英英释义

例句

1.The glass used in high-quality optics is often made from fused silica.

高质量光学仪器中使用的玻璃通常由熔融石英制成。

2.Because of its thermal stability, fused silica 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.When creating laboratory glassware, fused silica is preferred due to its resistance to thermal shock.

在制作实验室玻璃器皿时，由于其耐热冲击性，通常选择熔融石英。

4.In semiconductor manufacturing, fused silica is used as a substrate for photolithography.

在半导体制造中，熔融石英被用作光刻的基底。

5.The optical fibers are made from fused silica to ensure minimal signal loss.

光纤是由熔融石英制成的，以确保信号损失最小。

作文

Fused silica, or 熔融石英, is a type of glass that is made from pure silica in a non-crystalline form. It is known for its exceptional purity and thermal stability, making it an ideal material for various high-tech applications. The process of creating 熔融石英 involves melting natural quartz sand at extremely high temperatures, which results in a transparent and highly durable product. This unique material has become increasingly important in industries such as optics, telecommunications, and semiconductor manufacturing.One of the most significant properties of 熔融石英 is its low thermal expansion coefficient. This means that it can withstand drastic temperature changes without cracking or warping. As a result, 熔融石英 is commonly used in the production of optical components like lenses and prisms, where precision and stability are crucial. For example, in high-performance telescopes and microscopes, 熔融石英 lenses provide clear imaging while maintaining their shape under varying environmental conditions.In addition to its optical applications, 熔融石英 is also utilized in the field of electronics. The semiconductor industry relies on this material for the fabrication of integrated circuits and other electronic components. The excellent insulation properties of 熔融石英 help prevent electrical interference, ensuring that devices function efficiently and reliably. Furthermore, its resistance to chemical corrosion makes it suitable for use in harsh environments, where traditional materials would degrade over time.Another area where 熔融石英 shines is in the production of fiber optics. The ability of 熔融石英 to transmit light with minimal loss makes it the preferred choice for optical fibers, which are essential for modern communication systems. The telecommunications industry has greatly benefited from advancements in 熔融石英 technology, as it allows for faster and more reliable data transmission over long distances.Despite its many advantages, working with 熔融石英 does come with challenges. The manufacturing process requires specialized equipment and skilled labor, as the high temperatures needed to melt silica can pose safety risks. Additionally, the cost of 熔融石英 can be higher than that of other materials, which may limit its use in certain applications. However, the benefits it offers often outweigh these drawbacks, particularly in high-performance and precision-driven industries.In conclusion, 熔融石英 is a remarkable material that plays a vital role in various technological advancements. Its unique properties, including low thermal expansion, chemical resistance, and optical clarity, make it indispensable in fields ranging from optics to electronics. As technology continues to evolve, the demand for 熔融石英 is expected to grow, driving further innovations and applications that will benefit society as a whole. Understanding the significance of 熔融石英 can help us appreciate the intricate and interconnected nature of modern technology.

熔融石英是一种由纯硅石以非晶态形式制成的玻璃。它以其卓越的纯度和热稳定性而闻名，使其成为各种高科技应用的理想材料。制作熔融石英的过程涉及在极高温度下熔化天然石英砂，从而产生一种透明且高度耐用的产品。这种独特的材料在光学、电信和半导体制造等行业变得越来越重要。熔融石英最显著的特性之一是其低热膨胀系数。这意味着它能够承受剧烈的温度变化而不发生开裂或变形。因此，熔融石英通常用于生产光学元件，如透镜和棱镜，在这些地方，精确性和稳定性至关重要。例如，在高性能望远镜和显微镜中，熔融石英透镜提供清晰的成像，同时保持其在不同环境条件下的形状。除了光学应用，熔融石英还被广泛应用于电子领域。半导体行业依赖这种材料来制造集成电路和其他电子元件。熔融石英出色的绝缘特性有助于防止电干扰，确保设备高效可靠地运行。此外，其耐化学腐蚀的特性使其适合在恶劣环境中使用，而传统材料会随着时间的推移而降解。熔融石英还在光纤生产中大放异彩。熔融石英能够以最小的损耗传输光线，使其成为光纤的首选材料，而光纤对于现代通信系统至关重要。电信行业从熔融石英技术的进步中受益匪浅，因为它允许更快、更可靠的长距离数据传输。尽管熔融石英有许多优点，但与之合作也面临挑战。制造过程需要专门的设备和熟练的劳动，因为熔化硅所需的高温可能带来安全风险。此外，熔融石英的成本可能高于其他材料，这可能限制其在某些应用中的使用。然而，它所提供的好处往往超过这些缺点，特别是在高性能和精密驱动的行业中。总之，熔融石英是一种非凡的材料，在各种技术进步中扮演着至关重要的角色。其独特的特性，包括低热膨胀、耐化学性和光学清晰度，使其在光学到电子等领域不可或缺。随着技术的不断发展，对熔融石英的需求预计将增长，推动进一步的创新和应用，造福整个社会。理解熔融石英的重要性可以帮助我们欣赏现代技术的复杂和相互关联的本质。