deflection yoke

简明释义

偏转磁轭

英英释义

例句

1.During the testing phase, we noticed that the deflection yoke was not functioning properly.

在测试阶段，我们注意到偏转架没有正常工作。

2.The engineer adjusted the deflection yoke to improve the alignment of the machinery.

工程师调整了偏转架以改善机械的对齐。

3.To ensure accurate measurements, the technician calibrated the deflection yoke before the experiment.

为了确保测量准确，技术员在实验前校准了偏转架。

4.We replaced the old deflection yoke with a new one to enhance performance.

我们用新的偏转架替换了旧的，以提高性能。

5.The deflection yoke plays a crucial role in the stability of the structure.

偏转架在结构的稳定性中起着至关重要的作用。

作文

The concept of a deflection yoke is crucial in various engineering applications, particularly in the fields of mechanical and electrical engineering. A deflection yoke is a device used to measure or control the deflection of a beam or similar structure under load. It plays a significant role in ensuring the structural integrity of many systems, from bridges to electronic devices. Understanding how a deflection yoke operates can provide insights into the broader principles of physics and engineering design.In essence, a deflection yoke consists of a frame that holds a measuring device, such as a dial gauge or a strain gauge, which detects the amount of bending or deflection occurring in the structure it is monitoring. When a load is applied to a beam, it bends, and the deflection yoke measures this change in shape. This information is vital for engineers who need to ensure that structures can withstand expected loads without failing.One common application of a deflection yoke is in the construction industry. Engineers use these devices during the testing phase of building materials to determine their load-bearing capacity. By placing a deflection yoke at strategic points along a beam, they can monitor how much it bends under specific weights. This data helps them make informed decisions about material selection and structural design, ultimately leading to safer buildings and infrastructure.Moreover, deflection yokes are also used in the field of electronics, particularly in cathode ray tube (CRT) technology. In CRTs, the deflection yoke is responsible for directing the electron beam onto the screen by controlling its position. By adjusting the magnetic fields generated by the deflection yoke, the electron beam can be precisely aimed to create images on the display. This application illustrates the versatility of the deflection yoke beyond traditional structural uses.In addition to its practical applications, the deflection yoke serves as a teaching tool in educational settings. Many engineering programs incorporate hands-on experiments with deflection yokes to help students grasp the concepts of stress and strain in materials. By observing how different materials respond to loads and how the deflection yoke measures these changes, students can gain a deeper understanding of material properties and behavior.To sum up, the deflection yoke is more than just a simple measuring tool; it is an essential component in various engineering disciplines. Its ability to accurately measure deflection allows engineers to design safer and more efficient structures and devices. Whether in construction or electronics, the deflection yoke demonstrates the importance of precise measurement and control in engineering. As technology continues to advance, the role of the deflection yoke will likely evolve, but its fundamental purpose of ensuring safety and reliability will remain constant. Understanding this term and its applications not only enriches one's vocabulary but also enhances comprehension of critical engineering principles.

“偏转架”的概念在各类工程应用中至关重要，尤其是在机械和电气工程领域。“偏转架”是一种用于测量或控制承载下梁或类似结构的偏转的设备。它在确保许多系统的结构完整性方面发挥着重要作用，从桥梁到电子设备。理解“偏转架”的工作原理可以为我们提供对物理学和工程设计更广泛原则的深入了解。本质上，“偏转架”由一个框架组成，该框架容纳一个测量设备，如表盘规或应变规，能够检测正在监测的结构发生的弯曲或偏转量。当负载施加到梁上时，它会弯曲，而“偏转架”则测量这种形状变化。这些信息对于需要确保结构能承受预期负载而不会失败的工程师来说至关重要。“偏转架”的一个常见应用是在建筑行业。工程师在建筑材料的测试阶段使用这些设备来确定其承载能力。通过在梁的战略位置放置“偏转架”，他们可以监测在特定重量下梁弯曲的程度。这些数据帮助他们在材料选择和结构设计上做出明智的决策，最终导致更安全的建筑和基础设施。此外，“偏转架”还用于电子领域，特别是在阴极射线管（CRT）技术中。在CRT中，“偏转架”负责通过控制电子束在屏幕上的位置来引导电子束。通过调整“偏转架”产生的磁场，可以精确地将电子束瞄准，以在显示器上创建图像。这一应用展示了“偏转架”在传统结构用途之外的多样性。除了其实际应用外，“偏转架”还作为教育环境中的教学工具。许多工程项目都结合了“偏转架”的实践实验，以帮助学生掌握材料中的应力和应变概念。通过观察不同材料如何响应负载以及“偏转架”如何测量这些变化，学生可以更深入地理解材料的特性和行为。总之，“偏转架”不仅仅是一个简单的测量工具；它是各种工程学科中的一个重要组成部分。它准确测量偏转的能力使工程师能够设计出更安全和更高效的结构和设备。无论是在建筑还是电子领域，“偏转架”都展示了精确测量和控制在工程中的重要性。随着技术的不断进步，“偏转架”的角色可能会演变，但其确保安全和可靠性的基本目的将保持不变。理解这个术语及其应用不仅丰富了我们的词汇，还增强了我们对关键工程原则的理解。