volatilized getter

简明释义

挥发性吸气剂

英英释义

例句

1.In semiconductor manufacturing, a volatilized getter 挥发性捕集剂 is crucial for maintaining low pressure environments.

在半导体制造中，<自己>挥发性捕集剂对于维持低压环境至关重要。

2.To enhance the durability of the device, we incorporated a more effective volatilized getter 挥发性捕集剂 into the design.

为了增强设备的耐用性，我们在设计中加入了一种更有效的<自己>挥发性捕集剂。

3.The volatilized getter 挥发性捕集剂 was tested under extreme conditions to ensure reliability.

该<自己>挥发性捕集剂在极端条件下进行了测试，以确保其可靠性。

4.The new vacuum system improved the efficiency of the volatilized getter 挥发性捕集剂 in removing contaminants from the chamber.

新的真空系统提高了<自己>挥发性捕集剂在去除腔体污染物方面的效率。

5.The research team analyzed how different materials affected the performance of the volatilized getter 挥发性捕集剂.

研究小组分析了不同材料如何影响<自己>挥发性捕集剂的性能。

作文

In the field of materials science and engineering, the term volatilized getter refers to a specific type of material that is used to capture and remove impurities from a vacuum environment. These getters play a crucial role in various applications, including vacuum systems, semiconductor manufacturing, and even space technology. Understanding the concept of volatilized getter is essential for anyone involved in these industries, as it directly impacts the efficiency and performance of the systems they are working with.A volatilized getter typically consists of materials that can vaporize or volatilize at certain temperatures. When these materials are heated, they release gaseous species that react with unwanted gases present in the vacuum. This reaction leads to the formation of stable compounds, effectively removing impurities from the environment. The ability of these getters to operate under high temperatures and their efficiency in trapping reactive gases make them invaluable in maintaining the integrity of vacuum systems.One of the most common examples of a volatilized getter is a type of metal, such as lithium, which has a high affinity for reactive gases like oxygen and nitrogen. When lithium is introduced into a vacuum chamber and heated, it will volatilize and react with any oxygen present, forming lithium oxide. This process not only helps in purifying the vacuum but also extends the life of sensitive equipment by preventing oxidation and other harmful reactions.The use of volatilized getter materials is particularly significant in the semiconductor industry. In the fabrication of microchips, maintaining a clean and controlled environment is paramount. Any contamination can lead to defects in the chips, resulting in substantial financial losses. By employing volatilized getter materials, manufacturers can ensure that their vacuum systems remain free from contaminants, thus enhancing the overall yield and reliability of their products.Moreover, the concept of volatilized getter extends beyond just industrial applications. In space technology, where vacuum conditions are prevalent, these materials are crucial for ensuring the longevity and functionality of spacecraft. Space missions often involve extreme environments where traditional methods of impurity removal may not be effective. By utilizing volatilized getter materials, engineers can create more reliable systems that withstand the harsh conditions of space.In conclusion, the understanding of volatilized getter is vital for professionals in various scientific and engineering fields. These materials not only improve the performance of vacuum systems but also contribute to advancements in technology and innovation. As industries continue to evolve, the role of volatilized getter materials will likely expand, leading to new applications and improved methodologies in managing vacuum environments. Therefore, it is essential for researchers and practitioners to stay informed about the latest developments surrounding volatilized getter technologies and their implications for future projects.

在材料科学和工程领域，术语挥发性捕集器指的是一种特定类型的材料，用于捕获和去除真空环境中的杂质。这些捕集器在各种应用中发挥着至关重要的作用，包括真空系统、半导体制造甚至航天技术。理解挥发性捕集器的概念对于任何参与这些行业的人来说都是必不可少的，因为它直接影响到他们所工作的系统的效率和性能。挥发性捕集器通常由在特定温度下能够蒸发或挥发的材料组成。当这些材料被加热时，它们会释放出气体物质，与真空中存在的有害气体发生反应。此反应导致稳定化合物的形成，有效地去除环境中的杂质。这些捕集器在高温下操作的能力以及捕获反应性气体的效率使其在维护真空系统的完整性方面变得无价。一个常见的挥发性捕集器的例子是某种金属，如锂，它对氧气和氮气等反应性气体具有很高的亲和力。当锂被引入真空室并加热时，它将挥发并与任何存在的氧气反应，形成氧化锂。这个过程不仅有助于净化真空，还通过防止氧化和其他有害反应来延长敏感设备的使用寿命。在半导体行业中，挥发性捕集器材料的使用尤为重要。在微芯片的制造过程中，保持一个干净且受控的环境至关重要。任何污染都可能导致芯片缺陷，从而造成巨大的经济损失。通过使用挥发性捕集器材料，制造商可以确保他们的真空系统保持无污染，从而提高产品的整体产量和可靠性。此外，挥发性捕集器的概念不仅限于工业应用。在航天技术中，真空条件普遍存在，这些材料对确保航天器的耐久性和功能至关重要。太空任务往往涉及极端环境，在这些环境中，传统的杂质去除方法可能不够有效。通过利用挥发性捕集器材料，工程师可以创建更可靠的系统，以承受太空的恶劣条件。总之，理解挥发性捕集器对于各个科学和工程领域的专业人士至关重要。这些材料不仅提高了真空系统的性能，还有助于技术和创新的进步。随着各行业的不断发展，挥发性捕集器材料的角色可能会扩展，导致新的应用和改善真空环境管理的方法。因此，研究人员和从业者必须及时了解有关挥发性捕集器技术及其对未来项目影响的最新发展。