flexural measurement

简明释义

弯曲测量

英英释义

例句

1.The results of the flexural measurement showed that the new composite material is significantly stronger.

这次弯曲测量的结果显示新复合材料的强度显著提高。

2.The engineer conducted a flexural measurement to determine the bending strength of the material.

工程师进行了弯曲测量以确定材料的抗弯强度。

3.We need to calibrate the equipment before performing the flexural measurement.

在进行弯曲测量之前，我们需要校准设备。

4.For this project, accurate flexural measurement is crucial for assessing the structural integrity.

对于这个项目，准确的弯曲测量对评估结构完整性至关重要。

5.In the lab, we perform a flexural measurement every month to ensure quality control.

在实验室，我们每个月进行一次弯曲测量以确保质量控制。

作文

Flexural measurement is a crucial aspect of material science and engineering, particularly when evaluating the mechanical properties of materials. This term refers to the process of assessing how a material behaves under bending forces. The significance of flexural measurement (弯曲测量) lies in its ability to provide insights into a material's strength, stiffness, and ductility. These properties are vital for engineers and designers who need to ensure that structures can withstand various loads and stresses during their service life.In practical applications, flexural measurement (弯曲测量) is commonly performed using standardized tests such as the three-point bending test or the four-point bending test. During these tests, a sample material is subjected to a load applied at specific points along its length, and the resulting deflection is measured. By analyzing the data obtained from these tests, engineers can determine important parameters like the modulus of elasticity, flexural strength, and yield strength.Understanding the results of flexural measurement (弯曲测量) is essential for several reasons. First, it helps in selecting appropriate materials for construction and manufacturing processes. For instance, materials with high flexural strength are preferred in applications where resistance to bending is critical, such as in beams, bridges, and other structural components. Conversely, materials with lower flexural strength may be suitable for applications where flexibility is more important than rigidity.Moreover, flexural measurement (弯曲测量) also plays a significant role in quality control during the production of materials. Manufacturers often conduct these tests to ensure that their products meet specific standards and specifications. If a material fails to meet the required flexural properties, it may indicate issues in the manufacturing process or the need for adjustments in material formulation.Furthermore, advancements in technology have led to the development of sophisticated equipment for performing flexural measurement (弯曲测量). Modern testing machines can provide precise measurements and real-time data analysis, allowing for more accurate assessments of material performance. This technological progress enhances the ability to predict how materials will behave in real-world applications, ultimately leading to safer and more efficient designs.In conclusion, flexural measurement (弯曲测量) is an indispensable technique in the field of material science and engineering. It provides valuable information about the mechanical properties of materials, guiding engineers in their selection and application. As technology continues to evolve, the methods and accuracy of flexural measurement (弯曲测量) will likely improve, further enhancing our understanding of material behavior and contributing to the development of innovative and reliable structures.