pressure distribution

简明释义

压力分布

英英释义

例句

1.The simulation provided a detailed view of the pressure distribution 压力分布 across the wing of the aircraft.

模拟提供了飞机机翼上压力分布 压力分布的详细视图。

2.A uniform pressure distribution 压力分布 is desirable in hydraulic systems to ensure efficient operation.

在液压系统中，均匀的压力分布 压力分布是理想的，以确保高效运行。

3.The researchers studied the pressure distribution 压力分布 in soil to improve foundation design.

研究人员研究了土壤中的压力分布 压力分布以改善基础设计。

4.The engineer analyzed the pressure distribution 压力分布 on the bridge to ensure its structural integrity.

工程师分析了桥上的压力分布 压力分布以确保其结构完整性。

5.In fluid dynamics, understanding the pressure distribution 压力分布 is crucial for predicting flow patterns.

在流体动力学中，理解压力分布 压力分布对于预测流动模式至关重要。

作文

Understanding the concept of pressure distribution is crucial in various fields such as engineering, physics, and even meteorology. In simple terms, pressure distribution refers to how pressure varies across a given surface or area. This concept can be illustrated through numerous examples, ranging from the design of aircraft wings to the study of weather patterns. In engineering, especially in the field of fluid dynamics, pressure distribution plays a vital role in determining how forces act on different surfaces. For instance, when an airplane flies, the air pressure around its wings changes due to the shape and speed of the aircraft. Engineers must calculate the pressure distribution over the wings to ensure that the aircraft can generate enough lift to overcome its weight. If the pressure distribution is not adequately understood, it could lead to disastrous consequences, such as loss of control during flight. Similarly, in civil engineering, pressure distribution is essential when designing structures like bridges and buildings. The weight of the structure exerts pressure on the ground below, and understanding how this pressure is distributed helps engineers design foundations that can support the load without failing. If the pressure distribution is uneven, it could lead to structural damage or collapse. Therefore, accurate calculations and simulations are conducted to analyze how pressure is distributed across different materials and surfaces. Moreover, pressure distribution is also significant in meteorology, where it affects weather patterns and phenomena. For example, high and low-pressure systems influence wind direction and speed, which in turn affect climate and weather conditions. Meteorologists use models to predict how pressure distribution will change over time, helping to forecast storms, heatwaves, and other weather events. Understanding these patterns is crucial for preparing for natural disasters and mitigating their impacts on communities. In conclusion, the concept of pressure distribution is fundamental across various disciplines. Whether in aerospace engineering, civil construction, or meteorological studies, grasping how pressure varies across surfaces can lead to better designs, safer structures, and more accurate weather predictions. As technology advances, the methods for measuring and analyzing pressure distribution continue to improve, allowing for greater precision and understanding in these critical areas. Thus, a thorough comprehension of pressure distribution not only enhances our scientific knowledge but also contributes to the safety and efficiency of various applications in daily life.

理解压力分布的概念对于工程、物理甚至气象等多个领域至关重要。简单来说，压力分布是指压力在给定表面或区域上的变化方式。这个概念可以通过许多例子来说明，从飞机机翼的设计到天气模式的研究。在工程学中，尤其是在流体动力学领域，压力分布在确定不同表面上力的作用时发挥着重要作用。例如，当飞机飞行时，由于飞机的形状和速度，机翼周围的空气压力会发生变化。工程师必须计算机翼上的压力分布，以确保飞机能够产生足够的升力来克服其重量。如果对压力分布的理解不够，可能会导致灾难性的后果，例如在飞行过程中失去控制。同样，在土木工程中，压力分布在设计桥梁和建筑物等结构时也是至关重要的。结构的重量对下面的地面施加压力，理解这种压力如何分布有助于工程师设计能够支持负载而不失败的基础。如果压力分布不均匀，可能会导致结构损坏或倒塌。因此，进行准确的计算和模拟以分析压力在不同材料和表面上的分布是非常必要的。此外，压力分布在气象学中也很重要，它影响天气模式和现象。例如，高压和低压系统影响风向和风速，从而影响气候和天气条件。气象学家使用模型来预测压力分布随时间的变化，帮助预测风暴、热浪和其他天气事件。理解这些模式对于为自然灾害做准备及减轻其对社区的影响至关重要。总之，压力分布的概念在各个学科中都是基础性的。无论是在航空工程、土木建筑还是气象研究中，掌握压力在表面上的变化方式可以带来更好的设计、更安全的结构和更准确的天气预测。随着技术的进步，测量和分析压力分布的方法不断改善，从而在这些关键领域实现更高的精度和理解。因此，全面理解压力分布不仅提升了我们的科学知识，也为日常生活中各种应用的安全性和效率做出了贡献。