degassing

简明释义

英[diːˈɡæsɪŋ]美[diːˈɡæsɪŋ]

n. 除气；排气；消毒

adj. 除气的；排气的

v. 除气；给……排气；消毒（degas 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.The model indicates the optimum flow for degassing to be approximately 12 - 14 l /min for a Model APA-20 plug.

该模型表明，就一个型号APA- 20透气砖而已，除气精炼中最佳流量约12 -14升/分钟。

2.Ih this paper, the basic structure and operation principle of thin film degassing tank for vacuum epoxide resin pouring are briefly described.

本文简要介绍了环氧树脂真空浇注用薄膜脱气罐的基本结构及工作原理。

3.The cold model experimental results indicated that the MCSS degassing tower keeps the contact between catalyst and steam within two stages.

冷模实验表明：多级错流短接触汽提方法能将汽提介质与催化剂的接触时间控制在两级挡板之内。

4.It could tell you whether your carpets are degassing, or whether you've got problems like black mold.

它能告诉你，你的地毯是否已消除了毒气，或你家中是否有了装潢不良等问题。

5.Objective: This study is to determine the effect of different surface anodizing and degassing-preoxidation on bonding strength of porcelain to Ni-Cr alloy.

目的：研究非贵金属合金在上瓷前经过不同的阳极钝化条件处理及除气、预氧化对金瓷结合强度的影响。

6.Can understand the meaning of bombardment degassing, we know why.

只要明白轰击去气的含义，我们就知道为什么了。

7.In the production of ceramics, degassing 脱气 helps eliminate bubbles that can weaken the final product.

在陶瓷生产中，脱气 degassing 有助于消除可能削弱最终产品的气泡。

8.The degassing 脱气 of the oil improves its performance in high-temperature applications.

油的脱气 degassing 提高了其在高温应用中的性能。

9.The process of degassing 脱气 is essential in producing high-quality vacuum-sealed packages.

在生产高质量真空密封包装时，脱气 degassing 过程是必不可少的。

10.Before the experiment, we need to perform degassing 脱气 on the liquid to remove any trapped air.

在实验之前，我们需要对液体进行脱气 degassing，以去除任何被困的空气。

11.The aquarium water underwent degassing 脱气 to ensure a healthy environment for the fish.

水族箱的水经过了脱气 degassing 以确保为鱼类提供健康的环境。

作文

Degassing is a crucial process in various scientific and industrial fields, particularly in the production of materials and the treatment of gases. The term degassing refers to the removal of dissolved gases from liquids or solids, which can significantly affect the properties and performance of the final product. Understanding the importance of degassing is essential for anyone involved in chemistry, material science, or engineering.In the realm of material science, degassing plays a pivotal role in ensuring the quality of products such as polymers, metals, and ceramics. When these materials are produced, they often contain trapped gases that can lead to defects, reduced strength, and compromised durability. For instance, in the manufacturing of high-performance polymers, the presence of bubbles caused by trapped gases can result in weak points within the material, making it susceptible to failure under stress. Therefore, implementing an effective degassing process is vital to achieve the desired mechanical properties and longevity of the material.Moreover, degassing is also significant in the field of gas treatment. In various industrial applications, gases may need to be purified or treated to remove impurities before being utilized. This is where degassing comes into play. For example, in the oil and gas industry, removing dissolved gases from crude oil is essential for refining processes. If not adequately degassed, these gases can lead to operational hazards and inefficiencies during refining, impacting both safety and profitability.In addition to its applications in material science and gas treatment, degassing is also important in the food and beverage industry. During the production of certain foods and drinks, such as wine and beer, the presence of dissolved gases can affect flavor, aroma, and overall quality. The process of degassing helps to enhance the sensory attributes of these products, ensuring that consumers enjoy the best possible experience. For instance, in winemaking, degassing is often performed to remove carbon dioxide that can create unwanted fizz and alter the taste profile of the wine.Furthermore, degassing is a critical step in laboratory settings, particularly in experiments involving vacuum systems or sensitive measurements. When working with liquids in a vacuum, it is essential to remove any dissolved gases that could interfere with the accuracy of the results. The process of degassing ensures that the samples are free from unwanted gas bubbles, allowing for more precise measurements and reliable data.In conclusion, the process of degassing is integral to many industries and scientific fields. Its ability to remove dissolved gases from materials and liquids not only enhances product quality but also ensures safety and efficiency in various applications. Whether in material science, gas treatment, food production, or laboratory research, understanding and implementing effective degassing techniques are vital for achieving optimal results. As technology advances and new materials are developed, the significance of degassing will continue to grow, making it an essential concept for professionals and researchers alike.

脱气是科学和工业领域中一个至关重要的过程，特别是在材料生产和气体处理方面。术语脱气指的是从液体或固体中去除溶解气体，这可以显著影响最终产品的性能和特性。理解脱气的重要性对于任何参与化学、材料科学或工程的人来说都是至关重要的。在材料科学领域，脱气在确保聚合物、金属和陶瓷等产品质量方面发挥着关键作用。当这些材料被生产时，它们常常含有可能导致缺陷、强度降低和耐用性受损的气体。举例来说，在高性能聚合物的制造中，由于气体被困而产生的气泡可能导致材料内部出现薄弱点，使其在压力下容易发生故障。因此，实施有效的脱气过程对于实现所需的机械性能和材料的使用寿命至关重要。此外，脱气在气体处理领域也很重要。在各种工业应用中，气体可能需要被净化或处理，以去除杂质，然后才能被利用。这就是脱气发挥作用的地方。例如，在石油和天然气行业，从原油中去除溶解气体对精炼过程至关重要。如果没有充分的脱气，这些气体可能会导致操作危险和精炼过程中的低效率，影响安全性和盈利能力。除了在材料科学和气体处理中的应用外，脱气在食品和饮料行业中也很重要。在某些食品和饮料的生产过程中，例如葡萄酒和啤酒，溶解气体的存在可能影响风味、香气和整体质量。脱气过程有助于增强这些产品的感官属性，确保消费者获得最佳的体验。例如，在酿酒过程中，通常会进行脱气以去除可能产生不必要气泡并改变葡萄酒味道特征的二氧化碳。此外，脱气在实验室环境中也是一个关键步骤，特别是在涉及真空系统或敏感测量的实验中。当在真空中处理液体时，去除任何可能干扰结果的溶解气体是至关重要的。脱气过程确保样品不含不必要的气泡，从而允许更精确的测量和可靠的数据。总之，脱气过程对许多行业和科学领域至关重要。它去除材料和液体中的溶解气体，不仅提高了产品质量，还确保了各种应用中的安全性和效率。无论是在材料科学、气体处理、食品生产还是实验室研究中，理解和实施有效的脱气技术对于实现最佳结果至关重要。随着技术的进步和新材料的发展，脱气的重要性将继续增长，使其成为专业人士和研究人员都必须掌握的基本概念。