thrust-torsion meter

简明释义

推力-扭力仪

英英释义

例句

1.During the performance test, the thrust-torsion meter recorded the maximum torque applied.

在性能测试中，推力-扭矩计记录了施加的最大扭矩。

2.The engineer used a thrust-torsion meter to measure the forces acting on the shaft during testing.

工程师使用了一个推力-扭矩计来测量测试过程中作用于轴上的力。

3.The research team relied on the thrust-torsion meter for accurate measurements of force and rotation.

研究团队依赖于推力-扭矩计进行力和旋转的准确测量。

4.The data from the thrust-torsion meter helped identify potential failures in the machinery.

来自推力-扭矩计的数据帮助识别了机械中的潜在故障。

5.To ensure accuracy, the thrust-torsion meter was calibrated before the experiment began.

为了确保准确性，在实验开始之前对推力-扭矩计进行了校准。

作文

In the world of engineering and mechanics, precise measurements are crucial for ensuring the safety and efficiency of various systems. One such instrument that plays a vital role in this field is the thrust-torsion meter. This device is essential for measuring the thrust and torsional forces acting on a structure or machine component. Understanding how the thrust-torsion meter operates and its applications can provide valuable insights into its importance in engineering practices.The term 'thrust' refers to the axial force exerted along the length of an object, while 'torsion' pertains to the twisting force applied to an object. The thrust-torsion meter combines these two measurement capabilities into one instrument, allowing engineers to assess both types of forces simultaneously. This dual capability is particularly beneficial in applications such as aerospace engineering, automotive design, and structural analysis, where components are subjected to complex loading conditions.One of the primary applications of the thrust-torsion meter is in the testing of rotating machinery, such as motors and turbines. These machines often experience significant thrust and torsional loads during operation. By using a thrust-torsion meter, engineers can measure these forces to ensure that the machinery operates within safe limits. This not only helps in optimizing performance but also extends the lifespan of the equipment by preventing mechanical failures due to excessive loads.Another critical area where the thrust-torsion meter is utilized is in the field of robotics. Robots often have joints and actuators that experience both thrust and torsion as they move and perform tasks. By employing a thrust-torsion meter, designers can accurately gauge the forces at play, leading to better designs that enhance the robot's functionality and reliability. This is particularly important in applications such as robotic surgery, where precision is paramount.Furthermore, the thrust-torsion meter is instrumental in material testing. Engineers use it to determine the mechanical properties of materials under combined loading conditions. By applying known thrust and torsional loads to a sample and measuring the resulting deformation, engineers can derive essential information about the material's strength and ductility. This data is invaluable for selecting appropriate materials for specific applications, ensuring that structures can withstand the expected loads.In conclusion, the thrust-torsion meter is an indispensable tool in modern engineering and mechanics. Its ability to measure both thrust and torsional forces provides engineers with critical data needed for designing safe and efficient systems. Whether in aerospace, automotive, robotics, or material testing, the thrust-torsion meter contributes significantly to our understanding of how forces interact within various components. As technology continues to advance, the role of instruments like the thrust-torsion meter will undoubtedly become even more prominent, helping engineers tackle increasingly complex challenges in their fields.

在工程和机械的世界中，精确的测量对于确保各种系统的安全性和效率至关重要。推力扭矩计就是其中一种在该领域发挥重要作用的仪器。这种设备对于测量作用于结构或机器组件上的推力和扭转力至关重要。理解推力扭矩计的工作原理及其应用，可以为我们提供关于其在工程实践中重要性的宝贵见解。“推力”一词指的是沿物体长度施加的轴向力，而“扭转”则涉及施加在物体上的扭曲力。推力扭矩计将这两种测量能力结合到一个仪器中，使工程师能够同时评估这两种类型的力。这种双重能力在航空航天工程、汽车设计和结构分析等应用中尤为有益，因为这些组件常常承受复杂的载荷条件。推力扭矩计的主要应用之一是在旋转机械的测试中，例如电动机和涡轮机。这些机器在运行过程中往往会经历显著的推力和扭转载荷。通过使用推力扭矩计，工程师可以测量这些力，以确保机械在安全限制内运行。这不仅有助于优化性能，还通过防止因过载而导致的机械故障来延长设备的使用寿命。另一个推力扭矩计被广泛应用的关键领域是机器人技术。机器人通常具有在移动和执行任务时会经历推力和扭转的关节和执行器。通过使用推力扭矩计，设计师可以准确评估所施加的力，从而提高机器人的功能性和可靠性。这在如机器人手术等精密应用中尤为重要。此外，推力扭矩计在材料测试中也起着重要作用。工程师利用它来确定材料在组合加载条件下的机械性能。通过对样本施加已知的推力和扭转载荷，并测量由此产生的变形，工程师可以获得有关材料强度和延展性的基本信息。这些数据对于选择适合特定应用的材料至关重要，确保结构能够承受预期的载荷。总之，推力扭矩计是现代工程和机械中不可或缺的工具。它能够测量推力和扭转力，为工程师提供设计安全高效系统所需的关键数据。无论是在航空航天、汽车、机器人还是材料测试中，推力扭矩计都对我们理解各种组件中力的相互作用做出了重要贡献。随着技术的不断进步，像推力扭矩计这样的仪器的作用无疑会变得更加突出，帮助工程师应对他们领域中日益复杂的挑战。