torsion meter=torionmeter

简明释义

扭力计

英英释义

例句

1.To ensure safety, we must calibrate the torsion meter=torionmeter before testing the machinery.

为了确保安全，我们必须在测试机器之前校准扭矩计=torionmeter。

2.In our lab, we frequently use a torsion meter=torionmeter for research on material properties.

在我们的实验室中，我们经常使用扭矩计=torionmeter进行材料性质的研究。

3.The results from the torsion meter=torionmeter indicated that the material could withstand high stress.

来自扭矩计=torionmeter的结果表明，该材料可以承受高应力。

4.The engineer used a torsion meter=torionmeter to measure the twisting force on the beam.

工程师使用扭矩计=torionmeter来测量梁上的扭转力。

5.The torsion meter=torionmeter helped us identify the failure point in the structure.

该扭矩计=torionmeter帮助我们找到了结构的失效点。

作文

In the field of engineering and physics, precise measurements are crucial for the development and testing of materials. One such instrument that plays a vital role in measuring the twisting or rotational forces applied to an object is the torsion meter=torionmeter. This device is specifically designed to measure the torque or torsional stress experienced by materials under various conditions. Understanding how a torsion meter=torionmeter works and its applications can greatly enhance our comprehension of mechanical properties and structural integrity.A torsion meter=torionmeter operates based on the principle of torsion, which refers to the twisting of an object due to an applied torque. When a force is applied to one end of an object, it creates a twisting motion, and the torsion meter=torionmeter measures the amount of torque being exerted. This measurement is essential in various fields such as material science, mechanical engineering, and even in the automotive industry, where understanding the torsional properties of components can lead to better designs and safer products.The construction of a torsion meter=torionmeter typically involves a calibrated spring or a specialized sensor that responds to the applied torque. When torque is applied, the sensor deforms, and this deformation is translated into a measurable value. The accuracy and sensitivity of a torsion meter=torionmeter are critical, as even small discrepancies can lead to significant errors in engineering calculations.One of the primary applications of a torsion meter=torionmeter is in the testing of materials. Engineers often need to know how materials will behave under twisting forces, especially when designing components that will be subjected to such stresses in real-world applications. For example, in the design of shafts, beams, and other structural elements, knowing the torsional strength can prevent catastrophic failures.Moreover, the torsion meter=torionmeter is also utilized in research settings, where scientists examine the properties of new materials. By applying controlled torque and measuring the response, researchers can gather data on how different substances react under stress, leading to innovations in material development.In conclusion, the torsion meter=torionmeter is an indispensable tool in the fields of engineering and materials science. Its ability to accurately measure torque and torsional stress allows engineers and researchers to make informed decisions about material selection and design. As technology continues to advance, the applications of the torsion meter=torionmeter will likely expand, further contributing to the safety and efficiency of engineered systems. Understanding and mastering the use of a torsion meter=torionmeter is essential for anyone involved in these technical fields, as it provides critical insights into the behavior of materials under stress.

在工程和物理领域，精确的测量对于材料的开发和测试至关重要。其中一个在测量施加于物体的扭转或旋转力方面起着重要作用的仪器是扭矩计=torionmeter。该设备专门设计用于测量材料在各种条件下所经历的扭矩或扭转应力。理解扭矩计=torionmeter的工作原理及其应用，可以大大增强我们对机械性能和结构完整性的理解。扭矩计=torionmeter的工作原理基于扭转的原理，即由于施加的扭矩而导致物体的扭曲。当施加力量于物体的一端时，会产生扭转运动，而扭矩计=torionmeter则测量施加的扭矩量。这一测量在材料科学、机械工程甚至汽车工业等多个领域中至关重要，因为了解组件的扭转特性可以带来更好的设计和更安全的产品。扭矩计=torionmeter的构造通常包括一个经过校准的弹簧或一个对施加的扭矩做出反应的专用传感器。当施加扭矩时，传感器会变形，这种变形被转化为可测量的数值。扭矩计=torionmeter的准确性和灵敏度至关重要，因为即使是微小的差异也可能导致工程计算中的重大错误。扭矩计=torionmeter的主要应用之一是在材料测试中。工程师通常需要知道材料在扭转力作用下的表现，特别是在设计将承受这种应力的组件时。例如，在轴、梁和其他结构元素的设计中，了解扭转强度可以防止灾难性的失败。此外，扭矩计=torionmeter还在研究环境中得到了应用，科学家们检查新材料的特性。通过施加控制的扭矩并测量反应，研究人员可以收集关于不同物质在应力下反应的数据，从而促进材料开发的创新。总之，扭矩计=torionmeter是工程和材料科学领域不可或缺的工具。它准确测量扭矩和扭转应力的能力，使工程师和研究人员能够就材料选择和设计做出明智的决策。随着技术的不断进步，扭矩计=torionmeter的应用可能会进一步扩展，为工程系统的安全性和效率做出贡献。理解和掌握扭矩计=torionmeter的使用，对于任何参与这些技术领域的人来说都是至关重要的，因为它提供了对材料在应力下行为的关键见解。