bearing reaction

简明释义

轴承反作用力

英英释义

例句

1.The construction team measured the bearing reaction 支承反应 during the load test.

施工团队在载荷测试期间测量了支承反应 bearing reaction。

2.The architect reviewed the bearing reaction 支承反应 to determine if additional supports were needed.

建筑师审查了支承反应 bearing reaction以确定是否需要额外的支撑。

3.In a bridge design, understanding the bearing reaction 支承反应 helps in selecting the right materials.

在桥梁设计中，了解支承反应 bearing reaction有助于选择合适的材料。

4.Calculating the bearing reaction 支承反应 is crucial for ensuring the safety of tall structures.

计算支承反应 bearing reaction对确保高层建筑的安全至关重要。

5.The engineer calculated the bearing reaction 支承反应 at the base of the column to ensure stability.

工程师计算了柱子底部的支承反应 bearing reaction以确保稳定性。

作文

In the realm of structural engineering, understanding the concept of bearing reaction is crucial for ensuring the stability and safety of various constructions. The term bearing reaction refers to the force that a support exerts on a structure in response to the loads applied to it. This reaction plays a vital role in determining how structures behave under different conditions, including static and dynamic loads.When designing a building, engineers must calculate the bearing reaction at each support point to ensure that they can adequately handle the weight of the structure itself, as well as any additional loads from occupants, furniture, and environmental factors such as wind or snow. If the bearing reaction is not properly accounted for, it could lead to structural failure, posing significant risks to safety.To illustrate the importance of bearing reaction, consider a simple beam supported at both ends. When a load is applied to the center of the beam, the weight creates a downward force that the supports must counteract. The bearing reaction at each support will depend on the magnitude of the load and the distance between the supports. Engineers use equations derived from physics to calculate these reactions, ensuring that the materials used can withstand the forces involved.Moreover, the bearing reaction is not only relevant in static situations but also in dynamic scenarios, such as during an earthquake. In such cases, the forces acting on a structure change rapidly, and the bearing reaction must be able to adapt accordingly. This adaptability is a key consideration in modern structural design, where engineers often employ advanced materials and technologies to enhance performance.In addition to its technical aspects, the concept of bearing reaction can also be applied metaphorically in our daily lives. Just as structures rely on bearing reaction to remain stable, individuals often depend on the support of others to navigate challenges. Whether it’s family, friends, or colleagues, the support we receive can be seen as a form of bearing reaction that helps us maintain our balance amid life's pressures.In conclusion, the significance of bearing reaction extends beyond the field of engineering. It serves as a reminder of the importance of support systems in both physical structures and personal relationships. By understanding and applying the principles of bearing reaction, we can create safer buildings and foster stronger connections in our lives. As we continue to innovate in engineering and build resilient communities, the concept of bearing reaction will remain a fundamental element of our success.

在结构工程领域，理解“承载反应”的概念对确保各种建筑的稳定性和安全性至关重要。术语“承载反应”指的是支撑点对施加在其上的负荷所产生的反作用力。这种反应在确定结构在不同条件下的行为时发挥着至关重要的作用，包括静态和动态负荷。在设计建筑时，工程师必须计算每个支撑点的“承载反应”，以确保它们能够充分承受建筑自身的重量，以及来自居住者、家具和环境因素（如风或雪）的额外负荷。如果没有正确考虑“承载反应”，可能会导致结构失效，从而对安全构成重大风险。为了说明“承载反应”的重要性，考虑一个简单的两端支撑的梁。当负荷施加到梁的中心时，重量会产生一个向下的力，支撑点必须抵消这个力。每个支撑点的“承载反应”将取决于负荷的大小和支撑点之间的距离。工程师使用物理学推导出的方程来计算这些反应，以确保所用材料能够承受所涉及的力量。此外，“承载反应”不仅在静态情况下相关，在动态场景中，例如地震期间也同样重要。在这种情况下，作用于结构的力量迅速变化，“承载反应”必须能够相应调整。这种适应性是现代结构设计中的关键考虑因素，工程师通常采用先进的材料和技术来增强性能。除了其技术方面外，“承载反应”的概念在我们的日常生活中也可以隐喻性地应用。正如结构依赖于“承载反应”保持稳定一样，个人在应对挑战时也往往依赖他人的支持。无论是家庭、朋友还是同事，我们所获得的支持都可以被视为一种“承载反应”，帮助我们在生活压力中保持平衡。总之，“承载反应”的重要性超越了工程领域。它提醒我们在物理结构和人际关系中支持系统的重要性。通过理解和应用“承载反应”的原则，我们可以创造更安全的建筑，并在生活中培养更强的联系。在我们继续在工程领域创新并建设韧性社区的过程中，“承载反应”的概念将始终是我们成功的基本要素。