torsion dynamometer

简明释义

扭力测力计

英英释义

例句

1.In our physics class, we learned how to operate a torsion dynamometer for our experiments.

在我们的物理课上，我们学习了如何操作扭转测功机进行实验。

2.The technician installed the torsion dynamometer to analyze the rotational forces in the gearbox.

技术员安装了扭转测功机以分析变速箱中的旋转力。

3.The engineer used a torsion dynamometer to measure the torque of the motor in the lab.

工程师在实验室使用扭转测功机来测量电机的扭矩。

4.The torsion dynamometer provides real-time data on the performance of the engine.

扭转测功机提供发动机性能的实时数据。

5.To ensure accurate results, calibrating the torsion dynamometer is essential before testing.

为了确保结果准确，在测试之前校准扭转测功机是必不可少的。

作文

A torsion dynamometer is an essential instrument used to measure torque, which is a rotational force. It plays a significant role in various engineering applications, especially in the automotive and aerospace industries where precise measurements of torque are crucial for performance and safety. The functioning of a torsion dynamometer is based on the principle of torsion, which involves the twisting of an object when a force is applied. This instrument typically consists of a shaft that twists under the influence of torque, and the amount of twist is measured to determine the torque value.The design of a torsion dynamometer can vary; however, it generally includes a calibrated scale or a digital readout that provides the user with accurate torque readings. One common type of torsion dynamometer is the mechanical model, which uses a spring mechanism to measure the degree of twist. In contrast, electronic models utilize sensors to provide real-time data, making them more efficient for modern applications.In practical terms, the use of a torsion dynamometer is vital in testing engines, gearboxes, and other mechanical components. For example, when engineers design a new car engine, they must ensure that it can produce the desired torque without exceeding certain limits. By using a torsion dynamometer, they can simulate different operating conditions and measure how the engine performs under stress.Furthermore, a torsion dynamometer also aids in quality control during manufacturing processes. When producing components that require precise torque specifications, manufacturers can use this device to ensure that each part meets the required standards. This not only helps in maintaining quality but also enhances safety by preventing mechanical failures due to improper torque settings.The versatility of a torsion dynamometer extends beyond just measuring torque in engines. It is also utilized in research laboratories where scientists study material properties and behavior under various loads. For instance, when researching new materials for construction or manufacturing, understanding how these materials respond to twisting forces is critical. A torsion dynamometer provides the necessary data to analyze the strength and flexibility of these materials, guiding researchers in their development processes.In conclusion, the torsion dynamometer is a fundamental tool in both industrial and research settings. Its ability to accurately measure torque makes it indispensable for engineers, manufacturers, and scientists alike. As technology continues to advance, the designs of torsion dynamometers will likely evolve, incorporating more sophisticated features that enhance their functionality and ease of use. Understanding the importance and application of a torsion dynamometer is crucial for anyone involved in fields that rely on precise torque measurements, as it contributes significantly to innovation and safety in engineering disciplines.

扭矩测量仪是用于测量扭矩（即旋转力）的基本仪器。它在各种工程应用中发挥着重要作用，尤其是在汽车和航空航天工业中，精确的扭矩测量对性能和安全至关重要。扭矩测量仪的工作原理基于扭转的原理，即当施加力时物体发生扭曲。该仪器通常由一个在扭矩影响下扭转的轴组成，通过测量扭转的程度来确定扭矩值。扭矩测量仪的设计可能有所不同；然而，它通常包括一个校准的刻度或数字显示，向用户提供准确的扭矩读数。一种常见的扭矩测量仪是机械模型，它使用弹簧机制来测量扭转的程度。相比之下，电子模型利用传感器提供实时数据，使其在现代应用中更高效。在实际应用中，使用扭矩测量仪在测试发动机、齿轮箱和其他机械部件时至关重要。例如，当工程师设计一款新车发动机时，他们必须确保发动机能够产生所需的扭矩而不超过某些限制。通过使用扭矩测量仪，他们可以模拟不同的操作条件，并测量发动机在压力下的表现。此外，扭矩测量仪还在制造过程中帮助质量控制。在生产需要精确扭矩规格的组件时，制造商可以使用该设备确保每个部件符合所需标准。这不仅有助于保持质量，还通过防止因扭矩设置不当而导致的机械故障增强了安全性。扭矩测量仪的多功能性不仅限于测量发动机的扭矩。它还被用于研究实验室，科学家们在这里研究材料在各种负载下的特性和行为。例如，在研究新的建筑或制造材料时，了解这些材料如何应对扭转力至关重要。扭矩测量仪提供必要的数据，以分析这些材料的强度和柔韧性，为研究人员的开发过程提供指导。总之，扭矩测量仪是工业和研究环境中的基本工具。它准确测量扭矩的能力使其对工程师、制造商和科学家来说不可或缺。随着技术的不断进步，扭矩测量仪的设计可能会演变，融入更复杂的功能，提高其功能性和易用性。理解扭矩测量仪的重要性和应用对于任何参与依赖精确扭矩测量的领域的人来说都是至关重要的，因为它在工程学科的创新和安全性方面贡献重大。