dispersed material

简明释义

分散质

英英释义

例句

1.The scientist collected samples of the dispersed material from the river to analyze pollution levels.

科学家从河流中收集了分散物质样本，以分析污染水平。

2.The artist used dispersed material like powdered pigments to create a unique texture in her paintings.

艺术家使用了像粉末颜料这样的分散物质，为她的画作创造独特的纹理。

3.During the cleanup, volunteers gathered the dispersed material that had washed ashore after the storm.

在清理过程中，志愿者们收集了风暴后冲上岸的分散物质。

4.The engineer designed a filter to capture dispersed material in industrial wastewater.

工程师设计了一种过滤器，用于捕捉工业废水中的分散物质。

5.In the study of aerosols, researchers examined the dispersed material in the atmosphere to understand its effects on climate.

在气溶胶研究中，研究人员检查了大气中的分散物质，以了解其对气候的影响。

作文

In the field of science and engineering, the term dispersed material refers to materials that are spread out or distributed within a medium. This concept is crucial in various applications, including pharmaceuticals, environmental science, and manufacturing. Understanding how dispersed material behaves can lead to significant advancements in technology and improved product formulations.For instance, in the pharmaceutical industry, drugs often need to be formulated as dispersed material to enhance their bioavailability. When a drug is dispersed in a solvent, it can dissolve more readily in the bloodstream, allowing for faster and more efficient absorption by the body. This is particularly important for medications that require quick action, such as pain relievers or emergency treatments. Scientists meticulously study the properties of dispersed material to create formulations that maximize therapeutic effects while minimizing side effects.Moreover, in environmental science, the concept of dispersed material plays a vital role in understanding pollution and its impacts on ecosystems. For example, when oil spills occur, the oil becomes a dispersed material in the water, affecting marine life and habitats. Researchers analyze how these dispersed materials interact with the environment, which helps in developing effective cleanup strategies and regulations to protect natural resources.In manufacturing, dispersed material is essential for creating products with specific properties. For example, in the production of paints and coatings, pigments must be evenly dispersed in the formulation to ensure uniform color and consistency. If the pigments are not adequately dispersed, it can lead to defects in the final product, such as streaks or uneven coloring. Manufacturers invest in technologies and processes that optimize the dispersion of materials, thereby enhancing the quality and performance of their products.The study of dispersed material also extends to the field of nanotechnology. Nanomaterials, which are materials with dimensions on the nanoscale, often exhibit unique properties due to their size and dispersion. Researchers explore how these dispersed materials can be utilized in various applications, from electronics to medicine. The ability to manipulate and control the dispersion of nanoparticles can lead to innovations in drug delivery systems, where drugs are encapsulated in nanoparticles and released in a controlled manner.Furthermore, the behavior of dispersed material is influenced by factors such as particle size, shape, and the nature of the surrounding medium. Understanding these interactions is vital for predicting the performance of materials in different environments. For example, in the food industry, ingredients like flavorings and colorants are often used as dispersed materials. Their distribution affects not only the appearance and taste of food products but also their stability and shelf life.In conclusion, the concept of dispersed material is integral to numerous scientific and industrial fields. Whether in pharmaceuticals, environmental science, manufacturing, or nanotechnology, understanding how materials disperse and interact within various mediums can lead to innovative solutions and improved products. As research continues to advance, the significance of dispersed material will undoubtedly grow, highlighting the importance of this concept in our everyday lives and the future of technology.

在科学和工程领域，术语分散材料指的是在某种介质中分散或分布的材料。这个概念在制药、环境科学和制造等多个应用中至关重要。理解分散材料的行为可以带来技术的重大进步和改进的产品配方。例如，在制药行业中，药物通常需要以分散材料的形式进行配制，以增强其生物利用度。当药物分散在溶剂中时，它可以更容易地溶解进入血液，从而允许身体更快、更有效地吸收。这对于需要快速作用的药物尤其重要，例如止痛药或急救治疗。科学家们仔细研究分散材料的特性，以创建最大化治疗效果同时最小化副作用的配方。此外，在环境科学中，分散材料的概念在理解污染及其对生态系统的影响中发挥着至关重要的作用。例如，当发生石油泄漏时，石油成为水中的分散材料，影响海洋生物和栖息地。研究人员分析这些分散材料与环境的相互作用，这有助于制定有效的清理策略和保护自然资源的法规。在制造业中，分散材料对于创造具有特定性质的产品至关重要。例如，在涂料和涂层的生产中，颜料必须均匀分散在配方中，以确保颜色和一致性。如果颜料没有得到充分分散，可能会导致最终产品出现缺陷，例如条纹或颜色不均匀。制造商投资于优化材料分散的技术和工艺，从而提高产品的质量和性能。对分散材料的研究还扩展到纳米技术领域。纳米材料是指尺寸在纳米尺度上的材料，由于其尺寸和分散性，通常表现出独特的性质。研究人员探索这些分散材料在各种应用中的利用，从电子学到医学。操控和控制纳米颗粒的分散能力可以在药物递送系统中带来创新，其中药物被封装在纳米颗粒中，并以受控方式释放。此外，分散材料的行为受到粒子大小、形状和周围介质性质等因素的影响。理解这些相互作用对于预测材料在不同环境中的性能至关重要。例如，在食品行业中，调味料和色素等成分通常用作分散材料。它们的分布不仅影响食品产品的外观和口味，还影响其稳定性和保质期。总之，分散材料的概念对于众多科学和工业领域至关重要。无论是在制药、环境科学、制造还是纳米技术中，理解材料如何在各种介质中分散和相互作用可以带来创新的解决方案和改进的产品。随着研究的持续推进，分散材料的重要性无疑将增长，突显了这一概念在我们日常生活和未来技术中的重要性。