tensiometer; tensometer

简明释义

拉力计;张力计

英英释义

A tensiometer is an instrument used to measure the surface tension of liquids or the tension in a material.

张力计是一种用于测量液体表面张力或材料中张力的仪器。

A tensometer is a device used to measure the tensile strength or elongation of materials under stress.

拉伸计是一种用于测量材料在应力下的抗拉强度或延伸的设备。

例句

1.The tensometer showed that the new fabric could withstand high stress without breaking.

拉伸仪显示新面料在不破裂的情况下可以承受高压力。

2.In the lab, the tensometer is essential for testing the tensile strength of materials.

在实验室中,拉伸仪对于测试材料的抗拉强度至关重要。

3.The engineer used a tensiometer to measure the soil moisture levels before construction.

工程师使用张力计在施工前测量土壤湿度水平。

4.Using a tensiometer helps ensure optimal water levels in agricultural fields.

使用张力计有助于确保农业田地中的最佳水位。

5.Farmers rely on a tensiometer to determine when to irrigate their crops.

农民依赖张力计来决定何时灌溉作物。

作文

In the field of science and engineering, precise measurements are crucial for understanding various physical properties. One such important instrument is the tensiometer, also known as a tensometer. These devices are primarily used to measure the surface tension of liquids or the tensile strength of materials, providing valuable data for research and industrial applications.The tensiometer is particularly significant in the study of liquids. Surface tension is a fundamental property that affects how liquids behave, influencing phenomena such as droplet formation, capillary action, and the interaction between different substances. By using a tensiometer, scientists can accurately determine the surface tension of various liquids, which is essential in fields such as chemistry, biology, and materials science. For example, in the formulation of detergents or cosmetics, understanding surface tension helps in designing products that effectively interact with water and oils.On the other hand, the tensometer is used to measure the tensile strength of materials. This is particularly important in construction and manufacturing industries, where knowing the strength of materials like metals, plastics, and composites is critical for ensuring safety and durability. The tensometer applies a controlled force to a material until it deforms or breaks, allowing engineers to assess its mechanical properties. This information is vital when selecting materials for specific applications, ensuring that structures can withstand the forces they encounter during use.Both the tensiometer and the tensometer play a pivotal role in advancing technology and improving product quality. In research laboratories, these instruments are often used to develop new materials with tailored properties, leading to innovations in various sectors, including aerospace, automotive, and consumer goods. For instance, by understanding the surface tension of a new polymer, researchers can modify its characteristics to enhance its performance in specific applications.Moreover, the integration of advanced technologies into tensiometers and tensometers has significantly improved their accuracy and ease of use. Digital readouts, automated testing procedures, and software for data analysis have made these instruments more accessible to researchers and engineers alike. This technological advancement enables more efficient experimentation and faster development cycles, ultimately leading to quicker innovations in the marketplace.In conclusion, the tensiometer and tensometer are indispensable tools in both scientific research and industrial applications. Their ability to provide precise measurements of surface tension and tensile strength allows for a deeper understanding of materials and liquids, facilitating advancements in technology and improvements in product quality. As we continue to explore new materials and develop innovative solutions to complex problems, the importance of these instruments will only grow, highlighting the critical role that accurate measurement plays in our modern world.

在科学和工程领域,精确的测量对于理解各种物理特性至关重要。其中一个重要的仪器是张力计,也称为拉伸计。这些设备主要用于测量液体的表面张力或材料的抗拉强度,为研究和工业应用提供了宝贵的数据。张力计在液体研究中尤为重要。表面张力是一种基本属性,影响液体的行为,影响诸如水滴形成、毛细作用以及不同物质之间的相互作用等现象。通过使用张力计,科学家可以准确地确定各种液体的表面张力,这在化学、生物学和材料科学等领域是必不可少的。例如,在洗涤剂或化妆品的配方中,了解表面张力有助于设计能够有效与水和油相互作用的产品。另一方面,拉伸计用于测量材料的抗拉强度。这在建筑和制造行业尤其重要,因为了解金属、塑料和复合材料等材料的强度对于确保安全性和耐久性至关重要。拉伸计施加控制的力到材料上,直到其变形或断裂,从而使工程师能够评估其机械性能。这些信息在选择特定应用材料时至关重要,确保结构能够承受使用过程中遇到的力量。张力计拉伸计在推动技术进步和提高产品质量方面发挥着关键作用。在研究实验室中,这些仪器通常用于开发具有定制特性的材料,从而推动航空航天、汽车和消费品等各个领域的创新。例如,通过了解新聚合物的表面张力,研究人员可以修改其特性,以增强其在特定应用中的性能。此外,先进技术的整合显著提高了张力计拉伸计的准确性和易用性。数字读数、自动测试程序和数据分析软件使这些仪器对研究人员和工程师更加可及。这种技术进步使得实验更加高效,开发周期更快,最终导致市场上创新速度的加快。总之,张力计拉伸计是科学研究和工业应用中不可或缺的工具。它们提供的表面张力和抗拉强度的精确测量,使我们对材料和液体有了更深入的理解,促进了技术的进步和产品质量的提高。随着我们继续探索新材料并开发复杂问题的创新解决方案,这些仪器的重要性只会越来越大,突显出准确测量在现代世界中的关键作用。