ultraviolet ray transmitting glass

简明释义

紫外线透过玻璃

英英释义

例句

1.For optimal plant growth, the greenhouse is built with ultraviolet ray transmitting glass.

为了植物的最佳生长，温室采用了紫外线透过玻璃建造。

2.The new sunroom features ultraviolet ray transmitting glass to allow natural light while blocking UV radiation.

新的日光房采用了紫外线透过玻璃，允许自然光透入，同时阻挡紫外线辐射。

3.In the aquarium, they installed ultraviolet ray transmitting glass to protect marine life from harmful rays.

在水族馆，他们安装了紫外线透过玻璃以保护海洋生物免受有害光线的伤害。

4.The laboratory uses ultraviolet ray transmitting glass to conduct experiments safely.

实验室使用紫外线透过玻璃安全地进行实验。

5.Photographers often prefer ultraviolet ray transmitting glass filters for clearer images.

摄影师通常更喜欢使用紫外线透过玻璃滤镜，以获得更清晰的图像。

作文

In recent years, the importance of using advanced materials in various fields has become increasingly evident. One such material that has garnered attention is ultraviolet ray transmitting glass, which plays a crucial role in numerous applications, particularly in the fields of science, medicine, and environmental protection. This type of glass is specifically designed to allow ultraviolet (UV) rays to pass through while blocking other harmful wavelengths. Understanding the properties and applications of ultraviolet ray transmitting glass can provide valuable insights into its significance in modern technology and everyday life.Firstly, it is essential to recognize what ultraviolet ray transmitting glass actually is. This glass is manufactured with special coatings or treatments that enable it to transmit UV light effectively. Unlike regular glass, which tends to block most UV radiation, ultraviolet ray transmitting glass allows specific wavelengths of UV light to penetrate. This property is particularly beneficial in various scientific experiments and medical applications where UV light is required for certain processes.For instance, in the field of medicine, ultraviolet ray transmitting glass is often used in phototherapy devices that treat skin conditions such as psoriasis and eczema. These devices rely on controlled exposure to UV light to alleviate symptoms and promote healing. The ability of this glass to transmit UV rays ensures that patients receive the necessary treatment without the risk of exposure to harmful wavelengths that could cause skin damage.Moreover, ultraviolet ray transmitting glass is also significant in laboratory settings. Many scientific experiments require UV light for processes such as sterilization, fluorescence microscopy, and chemical analysis. By utilizing this specialized glass, researchers can achieve accurate results while ensuring the safety of their samples. The selective transmission of UV rays enables scientists to manipulate light in ways that are not possible with ordinary glass.Another critical application of ultraviolet ray transmitting glass is in environmental monitoring. UV light plays a vital role in the natural processes of ecosystems, including the growth of plants and the behavior of various organisms. By using this type of glass in environmental sensors and monitoring equipment, researchers can study the effects of UV radiation on different species and ecosystems. This information is essential for understanding climate change and its impact on biodiversity.Furthermore, ultraviolet ray transmitting glass has found its place in the design of certain architectural elements. For example, in buildings where natural light is desired, but UV exposure needs to be controlled, this glass can be used in windows and skylights. It allows sunlight to enter while filtering out harmful UV rays that can fade furniture and artwork, thus preserving the integrity of indoor spaces.In conclusion, the significance of ultraviolet ray transmitting glass cannot be overstated. Its unique properties make it an indispensable material in various fields, from medicine to environmental science. As technology continues to advance, the applications of this specialized glass will likely expand, leading to new innovations and improvements in how we utilize UV light. Understanding and harnessing the capabilities of ultraviolet ray transmitting glass will undoubtedly contribute to a better future, enhancing both our scientific endeavors and everyday experiences.

近年来，使用先进材料的重要性在各个领域变得越来越明显。其中一种引起关注的材料是紫外线透过玻璃，它在科学、医学和环境保护等多个应用中发挥着至关重要的作用。这种类型的玻璃专门设计用于允许紫外线（UV）射线通过，同时阻挡其他有害波长。理解紫外线透过玻璃的特性和应用可以提供对其在现代技术和日常生活中重要性的宝贵见解。首先，必须认识到紫外线透过玻璃实际上是什么。这种玻璃是通过特殊涂层或处理制造的，使其能够有效地传输紫外线。与普通玻璃不同，普通玻璃通常会阻挡大多数紫外线辐射，而紫外线透过玻璃则允许特定波长的紫外线光线穿透。这一特性在科学实验和医学应用中尤为有益，这些领域需要紫外线光线进行某些过程。例如，在医学领域，紫外线透过玻璃常用于治疗银屑病和湿疹等皮肤病的光疗设备。这些设备依赖于对紫外线光线的控制暴露来缓解症状并促进愈合。这种玻璃能够传输紫外线光线，确保患者在接受必要治疗的同时，不会面临有害波长可能造成的皮肤损伤风险。此外，紫外线透过玻璃在实验室环境中也非常重要。许多科学实验需要紫外线光线进行消毒、荧光显微镜观察和化学分析等过程。通过利用这种特殊玻璃，研究人员可以在确保样本安全的情况下获得准确的结果。紫外线的选择性传输使科学家能够以普通玻璃无法实现的方式操控光线。紫外线透过玻璃的另一个关键应用是在环境监测中。紫外线光线在生态系统的自然过程中发挥着至关重要的作用，包括植物的生长和各种生物的行为。通过在环境传感器和监测设备中使用这种类型的玻璃，研究人员可以研究紫外线辐射对不同物种和生态系统的影响。这些信息对于理解气候变化及其对生物多样性的影响至关重要。此外，紫外线透过玻璃还在某些建筑元素的设计中找到了自己的位置。例如，在希望自然光照明但需要控制紫外线暴露的建筑中，可以在窗户和天窗中使用这种玻璃。它允许阳光进入，同时过滤掉可能使家具和艺术品褪色的有害紫外线，从而保护室内空间的完整性。总之，紫外线透过玻璃的重要性不容低估。其独特的特性使其成为医学、环境科学等多个领域不可或缺的材料。随着技术的不断进步，这种特殊玻璃的应用可能会扩展，导致我们利用紫外线光线的新创新和改善。理解和利用紫外线透过玻璃的能力无疑将为更美好的未来做出贡献，提升我们的科学探索和日常体验。