torsional meter

简明释义

扭力计mode扭振形式

英英释义

例句

1.The torsional meter is essential for testing materials under rotational stress.

对于测试材料在旋转应力下的表现，扭转计是必不可少的。

2.In the lab, we calibrated the torsional meter to ensure accurate readings.

在实验室，我们校准了扭转计以确保读数准确。

3.Using a torsional meter can help identify weak points in mechanical designs.

使用扭转计可以帮助识别机械设计中的薄弱点。

4.The technician recorded the data from the torsional meter for further analysis.

技术员记录了来自扭转计的数据以便进一步分析。

5.The engineer used a torsional meter to measure the twisting force on the shaft.

工程师使用了一个扭转计来测量轴上的扭转力。

作文

In the field of engineering and physics, measuring various physical properties is essential for understanding the behavior of materials and structures. One such measurement is the torsional rigidity or resistance of a material, which can be quantified using a device known as a torsional meter. A torsional meter (扭矩计) is an instrument specifically designed to measure the torque or twisting force applied to an object. This measurement is crucial in various applications, including mechanical engineering, automotive testing, and materials science.The concept of torque is fundamental in mechanics. It refers to the rotational force that causes an object to rotate around an axis. When a torque is applied to a cylindrical object, such as a shaft, it experiences torsion, which leads to deformation. The ability of the material to withstand this deformation without failure is characterized by its torsional rigidity. Therefore, understanding how much torque a material can handle is vital for designing safe and efficient mechanical systems.A torsional meter typically consists of a sensor that detects the amount of twist in the material when torque is applied. This sensor may use various technologies, such as strain gauges or optical methods, to provide accurate readings. The data collected by the torsional meter can then be analyzed to determine the material's properties, including its shear modulus and yield strength. These properties are critical for engineers when selecting materials for specific applications, ensuring that they can withstand the expected loads without failing.In practical applications, a torsional meter is used in various industries. For example, in the automotive industry, it plays a crucial role in testing drive shafts and other components that experience torsional forces during operation. Engineers use the readings from the torsional meter to optimize designs, improve performance, and enhance safety features in vehicles. Additionally, in the field of materials science, researchers utilize torsional meters to study the mechanical properties of new materials, including composites and alloys, helping to innovate and develop stronger, lighter products.Moreover, the use of a torsional meter extends beyond industrial applications. In academic research, it serves as a valuable tool for students and researchers studying material properties and mechanical behavior. By conducting experiments with a torsional meter, students gain hands-on experience and a deeper understanding of concepts related to torque, torsion, and material strength.In conclusion, the torsional meter (扭矩计) is an essential instrument in both industrial and academic settings, providing critical measurements that inform the design and analysis of materials and structures. Its ability to quantify torque and assess torsional rigidity makes it invaluable across various fields, from automotive engineering to materials science. As technology advances, the precision and capabilities of torsional meters continue to evolve, further enhancing our understanding of material behavior under torsional loads. Therefore, mastering the use of a torsional meter is crucial for anyone involved in engineering, research, or any field where mechanical properties are of interest.

在工程和物理学领域，测量各种物理属性对于理解材料和结构的行为至关重要。其中一种测量是材料的扭转刚度或抗力，可以使用称为扭矩计的设备进行量化。扭矩计（扭矩计）是一种专门设计用于测量施加于物体上的扭矩或扭转力的仪器。这一测量在机械工程、汽车测试和材料科学等多个应用中至关重要。扭矩的概念是力学中的基本概念。它指的是使物体绕轴旋转的旋转力。当施加扭矩于圆柱形物体（如轴）时，它会经历扭转，导致变形。材料在不发生失效的情况下承受这种变形的能力以其扭转刚度为特征。因此，了解材料能够承受多大扭矩对设计安全和高效的机械系统至关重要。扭矩计通常由一个传感器组成，该传感器检测施加扭矩时材料的扭转量。该传感器可以采用各种技术，例如应变计或光学方法，以提供准确的读数。所收集的数据可以通过扭矩计进行分析，以确定材料的特性，包括其剪切模量和屈服强度。这些特性对于工程师在选择特定应用材料时至关重要，确保它们能够承受预期的负荷而不会失败。在实际应用中，扭矩计被广泛应用于多个行业。例如，在汽车工业中，它在测试驱动轴和其他在运行中经历扭转力的部件时发挥着关键作用。工程师利用扭矩计的读数来优化设计、提高性能和增强汽车的安全特性。此外，在材料科学领域，研究人员利用扭矩计研究新材料的机械特性，包括复合材料和合金，从而帮助创新和开发更强、更轻的产品。此外，扭矩计的使用超越了工业应用。在学术研究中，它为学生和研究人员研究材料特性和机械行为提供了宝贵的工具。通过使用扭矩计进行实验，学生获得了实践经验，并深入理解与扭矩、扭转和材料强度相关的概念。总之，扭矩计（扭矩计）是工业和学术环境中不可或缺的仪器，提供关键的测量数据，以指导材料和结构的设计和分析。它量化扭矩和评估扭转刚度的能力使其在多个领域（从汽车工程到材料科学）中变得不可或缺。随着技术的进步，扭矩计的精度和功能也在不断发展，进一步增强了我们对材料在扭转载荷下行为的理解。因此，掌握扭矩计的使用对于任何参与工程、研究或任何对机械特性感兴趣的领域的人来说都是至关重要的。