acid resisting
简明释义
耐酸的;
英英释义
能够承受或抵抗酸的腐蚀性影响。 |
例句
1.We need to use acid resisting materials in the laboratory to prevent corrosion.
我们需要在实验室使用耐酸性材料以防止腐蚀。
2.The tiles in the kitchen are acid resisting, so they won't be damaged by spills.
厨房的瓷砖是耐酸性的,因此不会因溢出而受损。
3.The new coating on the metal surface is highly acid resisting, making it suitable for chemical plants.
金属表面的新涂层具有很高的耐酸性,使其适合用于化工厂。
4.This paint is acid resisting, ideal for environments with acidic fumes.
这种油漆是耐酸性的,非常适合酸性烟雾环境。
5.The acid resisting properties of this glass make it perfect for laboratory use.
这种玻璃的耐酸性特性使其非常适合实验室使用。
作文
In today's world, where environmental concerns are at the forefront of global discussions, the importance of materials that can withstand harsh conditions cannot be overstated. One such property that is gaining attention is acid resisting. This term refers to the ability of a material to resist degradation or damage when exposed to acidic substances. The significance of acid resisting materials spans various industries, including construction, manufacturing, and even in our daily lives.For instance, in the construction industry, buildings and structures are often subjected to various environmental factors, including acid rain. Acid rain is formed when pollutants in the atmosphere combine with water vapor, resulting in precipitation that has a higher acidity level than normal rainwater. This can lead to significant damage to structures over time, especially those made from traditional materials that lack acid resisting properties. Therefore, using materials that can withstand such conditions is crucial for ensuring the longevity and durability of buildings.Moreover, in the manufacturing sector, many processes involve the use of acids, whether in cleaning, etching, or as part of chemical reactions. Equipment and tools that are not acid resisting can corrode quickly, leading to increased maintenance costs and potential hazards in the workplace. By investing in acid resisting materials, companies can enhance safety and reduce downtime due to repairs or replacements.In our daily lives, we might not realize how often we encounter products that utilize acid resisting materials. For example, kitchen utensils made from certain types of stainless steel or glass are designed to withstand acidic foods like tomatoes or citrus fruits. This not only ensures the longevity of the products but also maintains food safety and quality. Additionally, personal care products often contain acidic components, and packaging that is acid resisting helps preserve the integrity of these items.The development of acid resisting technologies has led to innovations in various fields. Researchers are continuously exploring new materials and coatings that provide enhanced resistance to acids. For example, advancements in polymer science have produced coatings that can be applied to metal surfaces, significantly increasing their lifespan when exposed to corrosive environments. Such innovations not only benefit manufacturers but also contribute to sustainability by reducing waste and the need for frequent replacements.In conclusion, the concept of acid resisting materials is more relevant today than ever before. As we face increasing environmental challenges and strive for greater efficiency in our industries, the demand for materials that can withstand harsh conditions will only grow. Understanding and implementing acid resisting technologies can lead to safer, more durable products that benefit both consumers and industries alike. It is essential for stakeholders across various sectors to prioritize the use of such materials to ensure a sustainable and resilient future.
在当今世界,环境问题处于全球讨论的前沿,能够承受恶劣条件的材料的重要性不容小觑。其中一个越来越受到关注的特性是耐酸。这个术语指的是材料在接触酸性物质时抵御降解或损坏的能力。耐酸材料的重要性横跨多个行业,包括建筑、制造,甚至我们的日常生活。例如,在建筑行业,建筑物和结构往往会受到各种环境因素的影响,包括酸雨。酸雨是当大气中的污染物与水蒸气结合时形成的,导致降水的酸度高于正常雨水。这可能会导致结构随着时间的推移遭受重大损害,特别是那些缺乏耐酸特性的传统材料。因此,使用能够承受这种条件的材料对于确保建筑的持久性和耐用性至关重要。此外,在制造行业,许多过程涉及使用酸,无论是在清洁、蚀刻还是作为化学反应的一部分。不具备耐酸特性的设备和工具可能会迅速腐蚀,从而导致维护成本增加和潜在的工作场所危险。通过投资于耐酸材料,公司可以提高安全性并减少因维修或更换造成的停工时间。在我们的日常生活中,我们可能没有意识到我们遇到的产品中有多少使用了耐酸材料。例如,由某些类型的不锈钢或玻璃制成的厨房用具被设计成能够承受酸性食物,如西红柿或柑橘类水果。这不仅确保了产品的持久性,还保持了食品的安全和质量。此外,个人护理产品通常含有酸性成分,而具有耐酸特性的包装有助于保持这些物品的完整性。耐酸技术的发展导致了各个领域的创新。研究人员不断探索新材料和涂层,以提供增强的耐酸性。例如,聚合物科学的进步已经生产出可以应用于金属表面的涂层,显著延长其在腐蚀环境中暴露时的使用寿命。这些创新不仅使制造商受益,还通过减少废物和频繁更换的需求促进可持续发展。总之,耐酸材料的概念比以往任何时候都更为相关。随着我们面临日益严峻的环境挑战,并努力提高各行业的效率,对能够承受恶劣条件的材料的需求只会增长。理解和实施耐酸技术可以导致更安全、更耐用的产品,造福消费者和各行各业。各个行业的利益相关者必须优先考虑使用此类材料,以确保可持续和有韧性的未来。
相关单词
