area of beam

简明释义

1. 光束横截面区; 2. 束区;

英英释义

例句

1.We need to measure the area of beam before we proceed with the installation.

在进行安装之前，我们需要测量梁的面积。

2.The engineer calculated the area of beam to ensure it could support the weight of the structure.

工程师计算了梁的面积以确保它能够支撑结构的重量。

3.The architect specified the area of beam to optimize material usage.

建筑师指定了梁的面积以优化材料使用。

4.In this construction project, understanding the area of beam is crucial for safety.

在这个建筑项目中，理解梁的面积对安全至关重要。

5.The structural integrity of the building relies on the correct calculation of the area of beam.

建筑的结构完整性依赖于对梁的面积的正确计算。

作文

The concept of the area of beam is essential in various fields such as engineering, architecture, and physics. When we talk about a beam, we are referring to a structural element that primarily resists loads applied laterally to its axis. The area of beam is crucial because it helps determine how much load a beam can safely carry without failing. In simple terms, the area of beam refers to the cross-sectional area of the beam, which is calculated by multiplying its width by its height. This measurement plays a significant role in the design and analysis of structures.In engineering, understanding the area of beam allows engineers to ensure that the materials chosen for construction can withstand the expected loads. For example, if an engineer is designing a bridge, they must calculate the area of beam required to support the weight of vehicles and pedestrians without compromising safety. A larger area of beam generally means that the beam can handle more load, which is why engineers often choose materials with higher strength-to-weight ratios.Furthermore, the area of beam also affects the deflection of the beam under load. Deflection is the degree to which a structural element bends under load. A beam with a larger area of beam will typically experience less deflection compared to a smaller one when subjected to the same load. Therefore, when designing beams, engineers must consider not only the area of beam but also the material properties and the span of the beam to ensure that it meets the necessary performance criteria.In architecture, the area of beam also influences aesthetic considerations. Architects often need to balance functionality with visual appeal. A beam that is too large may detract from the overall design of a building, while one that is too small may not provide adequate support. Therefore, understanding the area of beam is vital for architects as they collaborate with engineers to create safe and visually pleasing structures.In addition to engineering and architecture, the area of beam has applications in physics, particularly in studying the behavior of materials under stress. Researchers may conduct experiments to observe how different shapes and sizes of beams respond to various loads. By analyzing the area of beam, they can derive important conclusions about material properties and failure modes, contributing to advancements in material science.In conclusion, the area of beam is a fundamental concept that spans multiple disciplines. Its importance cannot be overstated, as it directly impacts the safety, functionality, and aesthetics of structures. Whether in engineering, architecture, or physics, a thorough understanding of the area of beam allows professionals to make informed decisions that lead to successful and sustainable designs. As we continue to innovate and push the boundaries of construction and design, the principles surrounding the area of beam will remain a cornerstone of our built environment.

‘梁的面积’这一概念在工程、建筑和物理等多个领域中至关重要。当我们谈论梁时，我们指的是一种主要抵抗横向施加于其轴线的载荷的结构元素。‘梁的面积’非常重要，因为它有助于确定梁在不发生破坏的情况下能够安全承载多少载荷。简单来说，‘梁的面积’是指梁的横截面积，它通过将宽度乘以高度来计算。这个测量在结构的设计和分析中发挥着重要作用。在工程学中，理解‘梁的面积’使工程师能够确保所选择的建筑材料能够承受预期的载荷。例如，如果一位工程师正在设计一座桥，他们必须计算出支持车辆和行人重量所需的‘梁的面积’，以确保安全不受影响。较大的‘梁的面积’通常意味着梁可以承载更多的载荷，这就是为什么工程师经常选择具有更高强度重量比的材料。此外，‘梁的面积’还会影响梁在载荷下的挠度。挠度是指结构元素在载荷作用下弯曲的程度。与同样载荷相比，具有较大‘梁的面积’的梁通常会经历更少的挠度。因此，在设计梁时，工程师不仅必须考虑‘梁的面积’，还必须考虑材料特性和梁的跨度，以确保其满足必要的性能标准。在建筑学中，‘梁的面积’也会影响美学考虑。建筑师往往需要平衡功能性与视觉吸引力。过大的梁可能会削弱建筑的整体设计，而过小的梁可能无法提供足够的支撑。因此，了解‘梁的面积’对建筑师至关重要，因为他们需要与工程师合作，以创建安全且视觉上令人愉悦的结构。除了工程和建筑之外，‘梁的面积’在物理学中也有应用，特别是在研究材料在应力下的行为时。研究人员可能会进行实验，以观察不同形状和大小的梁如何响应各种载荷。通过分析‘梁的面积’，他们可以得出关于材料特性和破坏模式的重要结论，从而推动材料科学的发展。总之，‘梁的面积’是一个跨越多个学科的基本概念。它的重要性不容小觑，因为它直接影响到结构的安全性、功能性和美观性。无论是在工程、建筑还是物理学中，深入理解‘梁的面积’使专业人士能够做出明智的决策，从而导致成功和可持续的设计。随着我们不断创新，推动建筑和设计的边界，围绕‘梁的面积’的原则将始终是我们建筑环境的基石。