torsion dynamometer

简明释义

扭力测功器

英英释义

例句

1.In the laboratory, we calibrated the torsion dynamometer 扭矩测功机 to ensure accurate readings during our tests.

在实验室里，我们校准了扭矩测功机以确保测试期间的读数准确。

2.The engineer used a torsion dynamometer 扭矩测功机 to measure the torque output of the new engine design.

工程师使用了一个扭矩测功机来测量新引擎设计的扭矩输出。

3.The torsion dynamometer 扭矩测功机 is essential for evaluating the performance of rotary machinery.

扭矩测功机对于评估旋转机械的性能至关重要。

4.Using a torsion dynamometer 扭矩测功机, they were able to identify the optimal torque settings for the assembly process.

通过使用扭矩测功机，他们能够确定组装过程的最佳扭矩设置。

5.We installed a torsion dynamometer 扭矩测功机 on the test bench to monitor the motor's efficiency.

我们在测试台上安装了一个扭矩测功机以监控电机的效率。

作文

In the field of mechanical engineering and physics, measuring torque is crucial for understanding how forces interact with rotating objects. One of the most effective tools for this purpose is the torsion dynamometer, a device specifically designed to measure the torque of an object in a precise manner. The torsion dynamometer operates on the principle of torsion, which refers to the twisting of an object due to an applied force. This device consists of a shaft that can twist under the influence of torque, allowing engineers to quantify the amount of twisting that occurs. The application of a torsion dynamometer is widespread in various industries, including automotive, aerospace, and manufacturing. For instance, in the automotive sector, it is essential to measure the torque produced by engines to ensure they operate within safe and efficient parameters. By utilizing a torsion dynamometer, engineers can test different engine designs and configurations, leading to improved performance and fuel efficiency.Moreover, a torsion dynamometer is not limited to just measuring engine torque. It can also be used to evaluate the performance of different mechanical systems, such as gearboxes and drive shafts. This versatility makes it an invaluable tool for engineers who are tasked with optimizing mechanical designs. Understanding the readings from a torsion dynamometer requires knowledge of its calibration and the factors that can affect its performance. Calibration involves adjusting the device to ensure accurate measurements, taking into account variables such as temperature and material properties. Engineers must be diligent in this process to avoid errors that could lead to incorrect conclusions about a system's performance.In addition to its practical applications, the torsion dynamometer serves an educational purpose in academic settings. Students studying mechanical engineering often use these devices in laboratory experiments to gain hands-on experience with torque measurement. Through these experiments, they learn about the fundamental principles of mechanics and the importance of precision in engineering calculations.As technology continues to advance, the torsion dynamometer has evolved as well. Modern versions of this device may incorporate digital displays and data logging capabilities, allowing for more sophisticated analysis of torque measurements. This technological integration enhances the usability of the torsion dynamometer, making it easier for engineers to interpret data and make informed decisions based on their findings.In conclusion, the torsion dynamometer is an essential instrument in the realm of mechanical engineering, providing critical insights into the behavior of rotating systems. Its ability to measure torque accurately plays a vital role in the design and optimization of various mechanical components. As engineers continue to push the boundaries of innovation, the torsion dynamometer will undoubtedly remain a key player in the quest for improved efficiency and performance in engineering applications.

在机械工程和物理学领域，测量扭矩对于理解力量与旋转物体之间的相互作用至关重要。为此，最有效的工具之一是扭转测功机，这是一种专门设计用于精确测量物体扭矩的设备。扭转测功机的工作原理是扭转，即由于施加的力而导致物体的扭曲。该设备由一个可以在扭矩的影响下扭转的轴组成，允许工程师量化发生的扭曲量。扭转测功机的应用在汽车、航空航天和制造等各个行业中都很广泛。例如，在汽车行业，测量发动机产生的扭矩以确保其在安全和高效参数内运行是至关重要的。通过使用扭转测功机，工程师可以测试不同的发动机设计和配置，从而提高性能和燃油效率。此外，扭转测功机不仅限于测量发动机扭矩。它还可以用于评估不同机械系统的性能，如变速箱和传动轴。这种多功能性使其成为工程师优化机械设计的重要工具。理解扭转测功机的读数需要对其校准及可能影响其性能的因素有一定了解。校准涉及调整设备以确保准确测量，考虑到温度和材料特性等变量。工程师必须在这一过程中保持谨慎，以避免可能导致对系统性能得出错误结论的错误。除了实际应用外，扭转测功机在学术环境中也具有教育目的。学习机械工程的学生常常在实验室实验中使用这些设备，以获得扭矩测量的实践经验。通过这些实验，他们学习机械原理的基本知识以及在工程计算中精确性的重要性。随着技术的不断进步，扭转测功机也在不断发展。现代版本的设备可能集成了数字显示和数据记录功能，从而允许对扭矩测量进行更复杂的分析。这种技术集成增强了扭转测功机的可用性，使工程师更容易解释数据并根据发现做出明智的决策。总之，扭转测功机是机械工程领域必不可少的仪器，为旋转系统的行为提供了关键的见解。其准确测量扭矩的能力在各种机械组件的设计和优化中发挥着重要作用。随着工程师不断推动创新的边界，扭转测功机无疑将在追求工程应用中提高效率和性能的过程中继续发挥关键作用。