air slaking

简明释义

1. 风化; 2. 潮解;

英英释义

例句

1.The air slaking method is often preferred for its simplicity and effectiveness in processing lime.

由于其简单性和在处理石灰方面的有效性，通常更喜欢使用air slaking方法。

2.The process of air slaking allows the quick hydration of lime in construction applications.

在建筑应用中，air slaking 过程允许石灰快速水合。

3.During air slaking, the temperature of the material can rise significantly due to the exothermic reaction.

在air slaking过程中，由于放热反应，材料的温度可能显著上升。

4.In the lab, we observed that air slaking can lead to a more uniform particle size in the final product.

在实验室中，我们观察到air slaking可以使最终产品的颗粒尺寸更加均匀。

5.Proper ventilation is essential during air slaking to avoid the buildup of harmful gases.

在air slaking过程中，适当的通风是必不可少的，以避免有害气体的积聚。

作文

In the world of construction and material science, the term air slaking refers to a specific process that occurs when quicklime (calcium oxide) is exposed to air and moisture. This phenomenon is crucial in understanding how certain materials behave in different environmental conditions. When quicklime is produced through the calcination of limestone, it is highly reactive and can absorb moisture from the atmosphere. This reaction is not just a simple hydration; it involves a complex interplay of chemical reactions that ultimately leads to the formation of calcium hydroxide, commonly known as slaked lime. The process of air slaking is significant because it affects the workability and properties of lime-based products used in construction, such as mortars and plasters.The importance of air slaking extends beyond mere chemical reactions. It plays a vital role in the durability and strength of building materials. For instance, when lime is mixed with sand and water to create mortar, the presence of air-slaked lime can enhance the binding properties of the mixture. This results in a stronger bond between bricks or stones, which is essential for the longevity of structures. Moreover, air slaking contributes to the overall performance of the mortar by improving its resistance to weathering and environmental stressors.Understanding air slaking is also important for those involved in sustainable building practices. Lime-based materials are often favored for their low environmental impact compared to cement. However, the effectiveness of these materials can be compromised if the air slaking process is not properly managed. Builders and architects must consider factors such as humidity and temperature when working with lime to ensure that the desired properties are achieved. This awareness can lead to better construction practices that not only meet modern standards but also honor traditional methods that have been used for centuries.Additionally, the concept of air slaking can be seen as a metaphor for adaptability in various aspects of life. Just as quicklime adapts to its environment by undergoing chemical changes, individuals and organizations must also be willing to adapt to changing circumstances. In today's fast-paced world, the ability to respond to challenges and seize opportunities is more important than ever. Embracing change, much like the process of air slaking, can lead to growth and improvement.In conclusion, air slaking is a fundamental process in material science that has significant implications for construction and sustainability. By understanding this process, builders can create stronger, more durable structures while also considering the environmental impact of their materials. Furthermore, the lessons learned from air slaking can inspire us to remain flexible and adaptable in our personal and professional lives, allowing us to thrive in an ever-changing world.

在建筑和材料科学的世界中，术语air slaking指的是一种特定的过程，当生石灰（氧化钙）暴露于空气和水分时会发生这种现象。了解这一现象对于理解某些材料在不同环境条件下的行为至关重要。当生石灰通过煅烧石灰石生产时，它具有高度反应性，并能够吸收来自大气中的水分。这种反应不仅仅是简单的水合反应；它涉及一系列复杂的化学反应，最终导致氢氧化钙的形成，通常称为消石灰。air slaking的过程非常重要，因为它影响了用于建筑的基于石灰的产品（如砂浆和抹灰）的可操作性和性质。air slaking的重要性超越了简单的化学反应。它在建筑材料的耐久性和强度方面起着至关重要的作用。例如，当石灰与沙子和水混合以制成砂浆时，存在空气消石灰可以增强混合物的粘结性能。这导致砖块或石头之间形成更强的结合，这对于结构的长期使用至关重要。此外，air slaking通过改善砂浆对风化和环境压力的抵抗力，进一步提高了其整体性能。理解air slaking对于参与可持续建筑实践的人们也很重要。与水泥相比，基于石灰的材料常常因其低环境影响而受到青睐。然而，如果未能妥善管理air slaking过程，这些材料的有效性可能会受到损害。建筑工人和建筑师在使用石灰时必须考虑湿度和温度等因素，以确保实现所需的性能。这种意识可以导致更好的建筑实践，不仅符合现代标准，还尊重几个世纪以来使用的传统方法。此外，air slaking的概念也可以被视为生活各个方面适应性的隐喻。正如生石灰通过经历化学变化来适应其环境一样，个人和组织也必须愿意适应变化的情况。在当今快节奏的世界中，回应挑战和抓住机遇的能力比以往任何时候都更加重要。拥抱变化，就像air slaking的过程一样，可以带来成长和改善。总之，air slaking是材料科学中的一个基本过程，对建筑和可持续性有重要影响。通过理解这一过程，建筑工人可以创造出更强、更耐用的结构，同时考虑材料的环境影响。此外，从air slaking中学到的经验可以激励我们在个人和职业生活中保持灵活和适应能力，使我们能够在不断变化的世界中蓬勃发展。