pressure distribution chart

简明释义

压力分布图

英英释义

例句

1.The pressure distribution chart 压力分布图 indicated areas of high stress in the material.

该压力分布图 pressure distribution chart显示了材料中的高应力区域。

2.The technician used the pressure distribution chart 压力分布图 to troubleshoot the hydraulic system.

技术员使用压力分布图 pressure distribution chart来排查液压系统故障。

3.For the simulation, we generated a pressure distribution chart 压力分布图 to visualize airflow over the wings.

为了模拟，我们生成了一个压力分布图 pressure distribution chart以可视化气流在机翼上的流动。

4.During the experiment, we observed the pressure distribution chart 压力分布图 to understand how pressure varied across the surface.

在实验过程中，我们观察了压力分布图 pressure distribution chart以了解压力如何在表面上变化。

5.The engineer analyzed the pressure distribution chart 压力分布图 to ensure the design met safety standards.

工程师分析了压力分布图 pressure distribution chart以确保设计符合安全标准。

作文

In the field of engineering and physics, understanding how pressure varies across different surfaces is crucial for many applications. One of the most effective ways to visualize this variation is through a pressure distribution chart, which provides a graphical representation of pressure levels at various points on a surface. This chart not only helps engineers and scientists analyze the behavior of fluids but also assists in designing structures that can withstand varying pressure forces.A pressure distribution chart typically displays pressure values on a two-dimensional plane, where each point corresponds to a specific pressure measurement. The chart may use color gradients or contour lines to indicate areas of high and low pressure. For instance, in aerodynamics, a pressure distribution chart can illustrate how air pressure changes around an aircraft wing during flight. Such information is invaluable for optimizing wing design to enhance lift and reduce drag.Moreover, pressure distribution charts are not limited to aerodynamics; they are also widely used in civil engineering. When designing bridges or buildings, engineers must consider how wind pressure affects the structure. By analyzing a pressure distribution chart, they can identify potential weak points and ensure that the building materials and design are adequate to handle the expected pressures. This proactive approach can prevent catastrophic failures and save lives.The creation of a pressure distribution chart often involves complex calculations and simulations. Engineers use computational fluid dynamics (CFD) software to model how fluids interact with surfaces. These simulations generate data that can be plotted on a pressure distribution chart, allowing for detailed analysis. As technology advances, the accuracy and detail of these charts continue to improve, leading to better designs and safer structures.In addition to engineering applications, pressure distribution charts can also be found in meteorology. Weather patterns are influenced by atmospheric pressure, and meteorologists use these charts to predict weather changes. By examining a pressure distribution chart, they can identify high and low-pressure systems, which are essential for forecasting storms and other weather phenomena.In conclusion, the pressure distribution chart is a vital tool across various fields, providing insights into how pressure behaves in different scenarios. Whether in engineering, meteorology, or other scientific disciplines, these charts facilitate better understanding and decision-making. As we continue to explore the complexities of our world, the pressure distribution chart will undoubtedly remain an essential resource for professionals seeking to innovate and improve safety in their respective domains.

在工程和物理学领域，理解压力如何在不同表面上变化对许多应用至关重要。可视化这种变化的最有效方式之一是通过压力分布图，它提供了不同表面上压力水平的图形表示。这张图不仅帮助工程师和科学家分析流体的行为，还帮助设计能够承受不同压力力量的结构。压力分布图通常在二维平面上显示压力值，其中每个点对应于特定的压力测量。该图可能使用颜色渐变或等高线来表示高压和低压区域。例如，在气动学中，压力分布图可以说明飞行过程中空气压力如何在飞机机翼周围变化。这些信息对于优化机翼设计以增强升力和减少阻力至关重要。此外，压力分布图并不仅限于气动学；它们在土木工程中也被广泛使用。在设计桥梁或建筑物时，工程师必须考虑风压对结构的影响。通过分析压力分布图，他们可以识别潜在的弱点，并确保建筑材料和设计足以处理预期的压力。这种主动的方法可以防止灾难性的失败并拯救生命。压力分布图的创建通常涉及复杂的计算和模拟。工程师使用计算流体动力学（CFD）软件来模拟流体与表面的相互作用。这些模拟生成的数据可以绘制在压力分布图上，允许进行详细分析。随着技术的进步，这些图表的准确性和细节不断提高，从而导致更好的设计和更安全的结构。除了工程应用外，压力分布图还可以在气象学中找到。天气模式受到大气压力的影响，气象学家使用这些图表来预测天气变化。通过检查压力分布图，他们可以识别高压和低压系统，这对于预测风暴和其他天气现象至关重要。总之，压力分布图是各个领域的重要工具，为我们提供了关于压力在不同场景中如何表现的见解。无论是在工程、气象还是其他科学学科，这些图表都促进了更好的理解和决策。随着我们继续探索这个世界的复杂性，压力分布图无疑将继续成为专业人士寻求创新和提高其各自领域安全性的重要资源。