calcium tungstate

简明释义

钨酸钙

英英释义

例句

1.The mineral composition of the ore includes calcium tungstate (钨酸钙), which is essential for extracting tungsten.

矿石的矿物成分包括calcium tungstate（钨酸钙），这对提取钨是必不可少的。

2.The fluorescence of calcium tungstate (钨酸钙) makes it suitable for various scientific applications.

由于calcium tungstate（钨酸钙）的荧光特性，它适用于多种科学应用。

3.For the production of high-energy radiation detectors, calcium tungstate (钨酸钙) is often preferred.

在生产高能辐射探测器时，通常首选calcium tungstate（钨酸钙）。

4.In the laboratory, we used calcium tungstate (钨酸钙) as a phosphor in our experiments.

在实验室中，我们使用calcium tungstate（钨酸钙）作为实验中的荧光粉。

5.The calcium tungstate (钨酸钙) crystals exhibit unique optical properties that are useful in imaging applications.

这种calcium tungstate（钨酸钙）晶体具有独特的光学特性，适用于成像应用。

作文

Calcium tungstate is a chemical compound with the formula CaWO4. It is a white crystalline solid that is commonly used in various applications, particularly in the fields of materials science and optics. The importance of calcium tungstate (钨酸钙) lies in its unique properties, which make it suitable for use in fluorescent lamps, X-ray screens, and as a phosphor in various lighting applications. In this essay, we will explore the characteristics, applications, and significance of calcium tungstate (钨酸钙) in modern technology.One of the most notable features of calcium tungstate (钨酸钙) is its high density and excellent radiation absorption properties. This makes it an ideal material for use in X-ray imaging systems, where it serves as a scintillator. When X-rays pass through the calcium tungstate (钨酸钙), the material emits visible light, which can then be detected and converted into an image. This property is crucial in medical diagnostics, as it enhances the clarity and quality of X-ray images, allowing for better detection of diseases and conditions.In addition to its use in X-ray imaging, calcium tungstate (钨酸钙) is also employed in the manufacturing of fluorescent lamps. These lamps operate by exciting the phosphor coating inside the bulb, which then emits light. The incorporation of calcium tungstate (钨酸钙) in the phosphor mix contributes to the efficiency and brightness of the emitted light. Furthermore, its stability and durability ensure a longer lifespan for fluorescent lamps, making them a popular choice for both residential and commercial lighting.The significance of calcium tungstate (钨酸钙) extends beyond its physical properties. As a compound, it is often studied for its potential in various scientific research applications. Researchers are exploring new ways to utilize calcium tungstate (钨酸钙) in nanotechnology and materials science. For instance, its properties may be harnessed to create advanced materials with enhanced optical and electronic characteristics. This could lead to breakthroughs in areas such as photonics, where controlling light at the nanoscale is essential for developing new technologies.Moreover, the environmental impact of using calcium tungstate (钨酸钙) is another aspect worth considering. Unlike some synthetic compounds, calcium tungstate (钨酸钙) is derived from natural sources, making it a more sustainable option for various applications. As industries increasingly prioritize eco-friendly materials, the demand for naturally occurring compounds like calcium tungstate (钨酸钙) is likely to grow.In conclusion, calcium tungstate (钨酸钙) is a versatile and valuable compound that plays a critical role in numerous technological applications. Its unique properties, including high density, excellent radiation absorption, and stability, make it indispensable in fields such as medical imaging and lighting. As research continues to uncover new uses for calcium tungstate (钨酸钙), its importance in science and industry is expected to increase, paving the way for innovative advancements in technology.

钨酸钙是一种化学化合物，化学式为CaWO4。它是一种白色晶体固体，通常用于材料科学和光学等各个领域。钨酸钙的（calcium tungstate）重要性在于其独特的性质，使其适用于荧光灯、X射线屏幕以及作为各种照明应用中的荧光粉。在本文中，我们将探讨钨酸钙（calcium tungstate）的特征、应用及其在现代技术中的重要性。钨酸钙（calcium tungstate）最显著的特点之一是其高密度和优良的辐射吸收特性。这使其成为X射线成像系统中理想的材料，其中它作为闪烁体使用。当X射线通过钨酸钙（calcium tungstate）时，该材料会发出可见光，然后可以被检测到并转换为图像。这一特性在医学诊断中至关重要，因为它增强了X射线图像的清晰度和质量，从而更好地检测疾病和病症。除了在X射线成像中的应用外，钨酸钙（calcium tungstate）还用于制造荧光灯。这些灯的工作原理是激发灯泡内的荧光粉涂层，随后发出光。将钨酸钙（calcium tungstate）纳入荧光粉混合物中，有助于提高发光的效率和亮度。此外，它的稳定性和耐用性确保了荧光灯的更长使用寿命，使其成为住宅和商业照明的热门选择。钨酸钙（calcium tungstate）的重要性不仅限于其物理特性。作为一种化合物，它常常被研究用于各种科学研究应用。研究人员正在探索利用钨酸钙（calcium tungstate）在纳米技术和材料科学中的新方法。例如，其特性可能被用来创造具有增强光学和电子特性的先进材料。这可能导致光子学等领域的突破，在这些领域，控制纳米尺度的光对于开发新技术至关重要。此外，使用钨酸钙（calcium tungstate）的环境影响也是值得考虑的一个方面。与某些合成化合物不同，钨酸钙（calcium tungstate）源自自然资源，使其成为各种应用中更可持续的选择。随着工业越来越重视生态友好的材料，像钨酸钙（calcium tungstate）这样的天然化合物的需求可能会增加。总之，钨酸钙（calcium tungstate）是一种多功能且有价值的化合物，在众多技术应用中发挥着关键作用。其独特的特性，包括高密度、优良的辐射吸收和稳定性，使其在医学成像和照明等领域不可或缺。随着研究不断发现钨酸钙（calcium tungstate）的新用途，其在科学和工业中的重要性预计将增加，为技术创新的进步铺平道路。