non-magnetic vessel
简明释义
无磁性船
英英释义
例句
1.The surgeon used a non-magnetic vessel to avoid interference with the MRI machine.
外科医生使用了一个非磁性容器以避免与MRI机器的干扰。
2.When conducting experiments in a magnetic field, it's crucial to use a non-magnetic vessel for accurate results.
在磁场中进行实验时,使用非磁性容器对于获得准确结果至关重要。
3.The lab technician carefully selected a non-magnetic vessel for storing sensitive samples.
实验室技术员仔细选择了一个非磁性容器来存储敏感样本。
4.During the experiment, the team realized they needed a non-magnetic vessel to contain the chemicals safely.
在实验过程中,团队意识到他们需要一个非磁性容器来安全地盛装化学品。
5.In underwater research, a non-magnetic vessel is essential to prevent compass errors.
在水下研究中,使用非磁性容器是必不可少的,以防止指南针错误。
作文
In the field of engineering and manufacturing, the term non-magnetic vessel refers to a type of container or structure that does not exhibit magnetic properties. This characteristic is crucial in various applications, particularly in the medical, aerospace, and scientific research sectors. Understanding the significance of a non-magnetic vessel can lead to advancements in technology and safety in environments where magnetic interference could pose serious risks.One of the most notable applications of non-magnetic vessels is in the medical field, especially in the context of Magnetic Resonance Imaging (MRI). MRI machines use powerful magnets to create detailed images of the inside of the human body. If any magnetic materials are present within the vicinity of an MRI machine, they can interfere with the imaging process or even become dangerous projectiles. Thus, using non-magnetic vessels to store and transport medical equipment or samples ensures that there is no risk of magnetic interference.Moreover, in the aerospace industry, the use of non-magnetic vessels is critical for the safe operation of aircraft and spacecraft. These vessels are often utilized to hold sensitive instruments that require precise measurements free from magnetic distortions. For example, navigation systems and other electronic devices must function accurately without the influence of magnetic fields. Therefore, engineers design non-magnetic vessels to house these essential components, ensuring optimal performance and safety during flight.Additionally, scientific research often necessitates the use of non-magnetic vessels, particularly in experiments that involve sensitive measurements or observations. In physics and chemistry, magnetic fields can alter the behavior of certain substances, leading to inaccurate results. By utilizing non-magnetic vessels, researchers can eliminate this variable, allowing for more reliable and valid outcomes in their studies. This is particularly important in experiments involving magnetic materials or phenomena, where even the slightest magnetic interference could skew the data.The material composition of non-magnetic vessels is also worth noting. Common materials include certain types of plastics, glass, and specific alloys that do not respond to magnetic fields. This careful selection of materials ensures that the vessels maintain their integrity and functionality in various settings. Furthermore, the design of these vessels often incorporates features that enhance their usability, such as easy handling and secure sealing, which are essential for maintaining the sterility of medical samples or the integrity of scientific experiments.In conclusion, the concept of a non-magnetic vessel plays a vital role in multiple industries, particularly those where precision and safety are paramount. From medical imaging to aerospace engineering and scientific research, the significance of using materials that do not interact with magnetic fields cannot be overstated. As technology continues to advance, the demand for non-magnetic vessels will likely increase, driving innovation and ensuring that professionals can work safely and effectively in their respective fields.
在工程和制造领域,术语非磁性容器指的是一种不具有磁性特性的容器或结构。这一特性在医疗、航空航天和科学研究等多个应用中至关重要。理解非磁性容器的重要性可以推动技术进步和安全性,尤其是在磁干扰可能带来严重风险的环境中。非磁性容器在医疗领域,尤其是磁共振成像(MRI)方面的应用尤为显著。MRI机器使用强大的磁体生成人体内部的详细图像。如果在MRI机器附近存在任何磁性材料,它们可能会干扰成像过程,甚至成为危险的飞行物。因此,使用非磁性容器来存储和运输医疗设备或样本,可以确保没有磁干扰的风险。此外,在航空航天行业,使用非磁性容器对于飞机和航天器的安全操作至关重要。这些容器通常用于存放需要精确测量且不受磁场影响的敏感仪器。例如,导航系统和其他电子设备必须在没有磁场影响的情况下准确工作。因此,工程师设计非磁性容器来容纳这些关键组件,以确保在飞行期间的最佳性能和安全性。此外,科学研究常常需要使用非磁性容器,特别是在涉及敏感测量或观察的实验中。在物理学和化学中,磁场可能会改变某些物质的行为,从而导致结果不准确。通过利用非磁性容器,研究人员可以消除这一变量,从而使他们的研究结果更可靠和有效。这在涉及磁性材料或现象的实验中尤其重要,因为即使是最轻微的磁干扰也可能扭曲数据。非磁性容器的材料组成也值得注意。常见材料包括某些类型的塑料、玻璃和特定合金,这些材料对磁场没有反应。这种材料的精心选择确保了容器在各种环境中的完整性和功能。此外,这些容器的设计通常结合了增强其可用性的特征,如易于处理和安全密封,这对于维持医疗样本的无菌性或科学实验的完整性至关重要。总之,非磁性容器的概念在多个行业中发挥着至关重要的作用,特别是在精确性和安全性至关重要的领域。从医学成像到航空航天工程,再到科学研究,使用不与磁场相互作用的材料的重要性不容小觑。随着技术的不断进步,对非磁性容器的需求可能会增加,推动创新,确保专业人士能够在各自的领域安全有效地工作。
