volumetric dilatation

简明释义

体积膨胀

英英释义

例句

1.The volumetric dilatation 体积膨胀 of gases can be predicted using the ideal gas law.

气体的体积膨胀可以通过理想气体定律进行预测。

2.Researchers are studying the volumetric dilatation 体积膨胀 effects in concrete during curing.

研究人员正在研究混凝土在固化过程中产生的体积膨胀效应。

3.During the experiment, we observed significant volumetric dilatation 体积膨胀 in the polymer sample.

在实验过程中，我们观察到聚合物样品有显著的体积膨胀。

4.The engineer measured the volumetric dilatation 体积膨胀 of the material under different temperature conditions.

工程师在不同温度条件下测量了材料的体积膨胀。

5.The volumetric dilatation 体积膨胀 of liquids is often influenced by pressure changes.

液体的体积膨胀通常会受到压力变化的影响。

作文

Understanding the concept of volumetric dilatation is essential in various fields such as physics, engineering, and material science. This term refers to the change in volume of a substance when it is subjected to temperature variations or pressure changes. In simpler terms, volumetric dilatation (体积膨胀) describes how much a material expands or contracts when its conditions change. This phenomenon can be observed in everyday life, such as when a balloon is heated and expands or when ice cubes melt in a drink. In engineering, understanding volumetric dilatation is critical for designing structures that can withstand temperature fluctuations. For example, bridges and buildings are constructed with materials that have predictable expansion rates to prevent cracking or structural failure. Engineers must calculate the expected volumetric dilatation (体积膨胀) of materials used in construction to ensure safety and durability.Moreover, in the field of thermodynamics, volumetric dilatation plays a significant role in understanding gas behavior. Gases expand when heated, leading to an increase in volume. This principle is crucial for various applications, including engines and refrigeration systems. The ideal gas law, which relates pressure, volume, and temperature, incorporates the concept of volumetric dilatation (体积膨胀) to predict how gases will behave under different conditions.In material science, volumetric dilatation is studied to understand how different materials respond to environmental changes. For instance, metals may expand more than plastics when heated, leading to considerations in manufacturing processes. By studying the volumetric dilatation (体积膨胀) properties of materials, scientists can develop new composites that combine desirable traits from different substances, enhancing performance in various applications.Furthermore, volumetric dilatation is not limited to solids and gases; liquids also exhibit this behavior. When liquids are heated, they expand, which is why it is important to leave space in containers to avoid spills. Understanding the volumetric dilatation (体积膨胀) of liquids is crucial in industries such as food and beverage, where precise measurements are necessary for quality control.In conclusion, the concept of volumetric dilatation (体积膨胀) is a fundamental principle that impacts various scientific disciplines and industries. Its implications are far-reaching, influencing everything from structural engineering to the development of new materials. By grasping this concept, professionals can make informed decisions that enhance safety, efficiency, and innovation across multiple fields.