alkali resisting

简明释义

耐碱的

英英释义

例句

1.When choosing a sealant, it's important to select one that is alkali resisting 耐碱的 for outdoor applications.

选择密封剂时，重要的是选择一种适合户外应用的耐碱的密封剂。

2.The new paint we used for the kitchen is alkali resisting 耐碱的, ensuring it won't peel off easily.

我们在厨房使用的新油漆是耐碱的，确保它不会轻易剥落。

3.For the bathroom tiles, we chose an alkali resisting 耐碱的 grout to prevent damage from cleaning products.

对于浴室瓷砖，我们选择了一种耐碱的填缝剂，以防止清洁产品造成损害。

4.This laboratory uses alkali resisting 耐碱的 glassware to handle strong alkaline solutions safely.

这个实验室使用耐碱的玻璃器皿安全处理强碱性溶液。

5.The construction company recommended using alkali resisting 耐碱的 materials for the foundation to enhance durability.

建筑公司建议在基础上使用耐碱的材料，以增强耐久性。

作文

In the field of materials science and engineering, the term alkali resisting refers to the ability of certain materials to withstand the corrosive effects of alkaline substances. Alkaline environments can be found in various industrial applications, including construction, manufacturing, and chemical processing. Understanding the properties of alkali resisting materials is essential for ensuring the longevity and durability of structures and products exposed to such conditions.One common example of alkali resisting materials is glass that has been treated to enhance its resistance to alkaline solutions. This type of glass is often used in laboratory settings where chemical reactions may occur, and it needs to maintain its integrity over time. Similarly, certain types of ceramics are engineered to be alkali resisting, making them suitable for use in environments where they might be exposed to caustic substances.The significance of alkali resisting materials extends beyond just their physical properties. In construction, for instance, using alkali resisting concrete can prevent degradation caused by alkalis present in soil or groundwater. This not only helps in maintaining the structural integrity of buildings and infrastructure but also reduces the need for frequent repairs and replacements, ultimately saving costs in the long run.Moreover, the development of alkali resisting materials is a response to the growing demand for sustainability in various industries. As companies strive to minimize their environmental impact, using materials that can endure harsh chemical environments without deteriorating is increasingly important. This aligns with global efforts to promote eco-friendly practices and reduce waste.In addition to their practical applications, alkali resisting materials also play a role in research and innovation. Scientists and engineers are continually exploring new formulations and compositions that can enhance the resistance of materials to alkali attacks. This ongoing research is crucial for advancing technologies in fields such as nanotechnology, where the stability of materials at the nanoscale is vital for the success of various applications.Furthermore, understanding the mechanisms behind alkali resisting properties can lead to the discovery of new materials with even greater resistance capabilities. By studying how certain compounds interact with alkaline substances, researchers can design materials that not only resist corrosion but also provide additional benefits, such as improved strength or lighter weight.In conclusion, the concept of alkali resisting materials is vital across multiple disciplines, from construction to research and development. Their ability to withstand alkaline environments ensures the durability and longevity of various products and structures, making them indispensable in modern engineering and manufacturing. As we continue to innovate and seek sustainable solutions, the importance of alkali resisting materials will only grow, paving the way for advancements that benefit both industry and the environment.

在材料科学和工程领域，短语耐碱指的是某些材料抵御碱性物质腐蚀的能力。碱性环境可以在各种工业应用中找到，包括建筑、制造和化学加工。理解耐碱材料的特性对于确保暴露于此类条件下的结构和产品的持久性和耐用性至关重要。一个常见的耐碱材料的例子是经过处理以增强其对碱性溶液抵抗力的玻璃。这种类型的玻璃通常用于实验室环境中，在那里可能发生化学反应，并且需要随着时间的推移保持其完整性。同样，某些类型的陶瓷被设计为耐碱，使它们适合在可能暴露于腐蚀性物质的环境中使用。耐碱材料的重要性不仅仅体现在其物理特性上。在建筑中，例如，使用耐碱混凝土可以防止由土壤或地下水中的碱引起的降解。这不仅有助于维持建筑和基础设施的结构完整性，还减少了频繁维修和更换的需要，最终在长期内节省成本。此外，耐碱材料的发展响应了各行业对可持续发展的日益需求。随着公司努力最小化其环境影响，使用能够在恶劣化学环境中耐受而不易降解的材料变得愈发重要。这与全球推动环保实践和减少废物的努力相一致。除了实际应用，耐碱材料还在研究和创新中发挥作用。科学家和工程师不断探索新的配方和成分，以增强材料对碱性攻击的抵抗力。这项持续的研究对于推进纳米技术等领域的技术至关重要，在这些领域，材料在纳米尺度上的稳定性对于各种应用的成功至关重要。此外，理解耐碱特性的机制可以导致发现具有更强抵抗能力的新材料。通过研究某些化合物如何与碱性物质相互作用，研究人员可以设计出不仅抵抗腐蚀，而且提供额外好处（如提高强度或减轻重量）的材料。总之，耐碱材料的概念在多个学科中至关重要，从建筑到研发。它们抵御碱性环境的能力确保了各种产品和结构的耐用性和持久性，使它们在现代工程和制造中不可或缺。随着我们继续创新并寻求可持续解决方案，耐碱材料的重要性只会增加，为有利于工业和环境的进步铺平道路。