beam forms

简明释义

梁模板

英英释义

Beam forms refer to the specific configurations or shapes that beams take when they are subjected to various forces or loads in structural engineering.

梁形是指在结构工程中,当梁受到各种力或荷载作用时,梁所采用的特定配置或形状。

In the context of acoustics or signal processing, beam forms can describe the patterns created by the directional transmission or reception of waves.

在声学或信号处理的上下文中,波束形状可以描述通过方向性传播或接收波而产生的模式。

例句

1.During the physics lecture, the professor explained how beam forms 梁形态 affect light propagation.

在物理讲座中,教授解释了beam forms 梁形态如何影响光的传播。

2.The artist created a sculpture that mimicked natural beam forms 梁形态 found in trees.

艺术家创作了一座模仿树木中自然beam forms 梁形态的雕塑。

3.The architect used advanced software to visualize different beam forms 梁形态 for the new building.

建筑师使用先进的软件来可视化新建筑的不同beam forms 梁形态

4.In structural engineering, understanding beam forms 梁形态 is crucial for ensuring stability.

在结构工程中,理解beam forms 梁形态对确保稳定性至关重要。

5.The construction team had to adjust the beam forms 梁形态 to meet local building codes.

施工队必须调整beam forms 梁形态以符合当地建筑规范。

作文

In the realm of physics and engineering, the term beam forms refers to the specific configurations or shapes that beams can take when they are subjected to various forces. Understanding beam forms is crucial for designing structures that can withstand loads without failing. For instance, when an architect designs a bridge, they must consider how the materials will distribute weight and stress. The beam forms chosen for the bridge will determine its stability and durability. There are several types of beam forms, including cantilever beams, simply supported beams, and fixed beams. Each type has its own unique properties and applications. A cantilever beam, for example, is anchored at one end while the other end extends freely into space. This form is often used in balconies and overhangs, where it can support weight without additional support on the free end. On the other hand, simply supported beams are supported at both ends and are commonly used in bridges and buildings. They allow for more straightforward calculations in terms of load distribution and deflection.The study of beam forms also involves understanding how different materials behave under stress. Steel beams, for instance, can handle significant loads due to their high tensile strength, while wooden beams may be more susceptible to bending and warping. Engineers must select the appropriate material based on the expected loads and environmental conditions. This selection process is critical because using the wrong type of beam or material can lead to structural failure, which can have catastrophic consequences.Moreover, advancements in technology have led to the development of new materials and methods for creating beam forms. For example, reinforced concrete combines the compressive strength of concrete with the tensile strength of steel, resulting in a material that can support larger loads than either material could alone. This innovation allows for more complex and aesthetically pleasing designs in modern architecture.In addition to physical structures, the concept of beam forms can also apply to fields such as telecommunications. In this context, beam forms refer to the way signals are transmitted through space. Engineers design antennas and transmitters to create specific beam forms that can direct signals toward particular areas, enhancing communication efficiency. Just as with physical beams, the shape and direction of these beam forms can significantly impact performance and reliability.In conclusion, the term beam forms encompasses a wide range of applications across various fields, from civil engineering to telecommunications. Understanding the different types and characteristics of beam forms is essential for anyone involved in designing structures or systems that rely on the principles of physics and material science. By mastering the concept of beam forms, we can create safer, more efficient, and more innovative designs that meet the needs of our modern world.

在物理和工程领域,术语beam forms指的是在受各种力作用时,梁可以采取的特定配置或形状。理解beam forms对于设计能够承受负载而不失效的结构至关重要。例如,当建筑师设计桥梁时,他们必须考虑材料如何分配重量和应力。选择的beam forms将决定其稳定性和耐久性。有几种类型的beam forms,包括悬臂梁、简支梁和固定梁。每种类型都有其独特的特性和应用。例如,悬臂梁一端固定,而另一端自由延伸到空间中。这种形式通常用于阳台和悬挑结构,可以在没有额外支持的情况下支撑重量。另一方面,简支梁在两端都有支撑,通常用于桥梁和建筑物。它们允许在负载分布和挠度方面进行更简单的计算。对beam forms的研究还涉及理解不同材料在应力下的表现。例如,钢梁由于其高抗拉强度,可以承受显著的负载,而木梁可能更容易弯曲和变形。工程师必须根据预期的负载和环境条件选择合适的材料。这个选择过程至关重要,因为使用错误类型的梁或材料可能导致结构失效,这可能会带来灾难性的后果。此外,技术的进步导致了新材料和制造beam forms方法的发展。例如,钢筋混凝土将混凝土的抗压强度与钢材的抗拉强度结合在一起,产生一种能够承受比单独材料更大负载的材料。这一创新使得现代建筑中能够实现更复杂和美观的设计。除了物理结构,beam forms的概念也可以应用于电信等领域。在这种情况下,beam forms指的是信号通过空间传输的方式。工程师设计天线和发射器,以创建特定的beam forms,可以将信号定向到特定区域,从而提高通信效率。就像物理梁一样,这些beam forms的形状和方向可以显著影响性能和可靠性。总之,术语beam forms涵盖了多个领域的广泛应用,从土木工程到电信。理解不同类型和特征的beam forms对于任何参与设计依赖于物理学和材料科学原理的结构或系统的人来说都是必不可少的。通过掌握beam forms的概念,我们可以创造出更安全、更高效和更具创新性的设计,以满足现代世界的需求。