beam division

简明释义

射束分割

英英释义

例句

1.By implementing beam division, the network can support more users without compromising speed.

通过实施波束划分，网络可以支持更多用户而不影响速度。

2.The new antenna design utilizes beam division to focus on multiple targets simultaneously.

新的天线设计利用波束划分同时聚焦多个目标。

3.In telecommunications, the concept of beam division is crucial for optimizing signal transmission.

在电信中，波束划分的概念对于优化信号传输至关重要。

4.The engineers discussed the beam division strategy to enhance the performance of the radar system.

工程师们讨论了提高雷达系统性能的波束划分策略。

5.The study focused on the effects of beam division in wireless communication systems.

该研究集中于波束划分在无线通信系统中的影响。

作文

In the field of engineering and architecture, the concept of beam division plays a crucial role in the design and analysis of structures. Beam division refers to the method of segmenting a beam into smaller parts or sections to facilitate calculations related to load distribution, stress analysis, and overall structural performance. By dividing a beam into segments, engineers can apply various principles of mechanics to each section, making it easier to assess how different loads affect the entire structure. This technique is particularly useful when dealing with complex structures that experience varying loads across their length.When designing a bridge, for instance, engineers often utilize beam division to ensure that the load is evenly distributed across the entire span of the bridge. The main beam may be divided into several smaller beams or sections, each one capable of supporting a portion of the total load. This approach allows for a more precise analysis of how forces such as tension and compression will act on each segment, ultimately leading to a safer and more efficient structure.Moreover, beam division is not limited to just bridges; it is also applicable in high-rise buildings, where vertical loads from floors and roofs must be carefully managed. By applying beam division, architects can create a framework that distributes weight evenly, preventing potential failures that could arise from overloading any single beam. This methodology is essential in ensuring the longevity and stability of large structures.In addition to its structural benefits, beam division also aids in simplifying complex calculations. Instead of trying to analyze an entire beam at once, engineers can focus on smaller, manageable sections. This segmentation allows for the use of mathematical models that can accurately predict the behavior of each part under various conditions. Consequently, beam division enhances the efficiency of the design process, enabling engineers to identify potential weaknesses early on and make necessary adjustments before construction begins.Furthermore, the concept of beam division extends beyond traditional materials like steel and concrete. With the advent of new materials and construction techniques, such as composites and modular construction, understanding how to effectively divide beams becomes even more important. Engineers must consider factors like material properties and joint connections when implementing beam division in modern designs.In conclusion, beam division is an integral aspect of engineering and architecture, providing a systematic approach to analyzing and designing structures. By breaking down beams into smaller segments, engineers can ensure that loads are properly managed, calculations are simplified, and overall safety is prioritized. As construction technology continues to evolve, the importance of mastering beam division will remain paramount in creating resilient and efficient structures that stand the test of time.

梁的划分在工程和建筑领域中扮演着至关重要的角色，它涉及到结构设计和分析。梁的划分是指将梁分割成更小的部分或段，以便于进行与负载分布、应力分析和整体结构性能相关的计算。通过将梁划分为多个段，工程师可以对每个部分应用各种力学原理，从而更容易评估不同负载对整个结构的影响。这种技术在处理承受不同负载的复杂结构时尤为有用。例如，在设计桥梁时，工程师通常利用梁的划分来确保负载均匀分布在整个桥梁的跨度上。主梁可能被划分为几个较小的梁或段，每一个都能够支撑总负载的一部分。这种方法使得更精确地分析拉力和压力等力如何作用于每个段成为可能，从而最终导致更安全、更高效的结构。此外，梁的划分不仅限于桥梁；它在高层建筑中也同样适用，在这些建筑中，楼层和屋顶的垂直负载必须得到仔细管理。通过应用梁的划分，建筑师可以创建一个均匀分布重量的框架，防止由于任何单一梁超载而可能导致的潜在故障。这种方法在确保大型结构的耐久性和稳定性方面至关重要。除了其结构优势外，梁的划分还帮助简化复杂的计算。工程师不必一次性分析整个梁，而是可以专注于较小、可管理的部分。这种分段方法允许使用数学模型，准确预测在各种条件下每个部分的行为。因此，梁的划分提高了设计过程的效率，使工程师能够及早识别潜在的弱点，并在施工开始之前进行必要的调整。此外，梁的划分的概念不仅限于传统材料如钢铁和混凝土。随着新材料和建筑技术的发展，如复合材料和模块化建筑，理解如何有效地划分梁变得更加重要。工程师在现代设计中实施梁的划分时，必须考虑材料特性和连接点等因素。总之，梁的划分是工程和建筑的一个重要方面，为分析和设计结构提供了一种系统的方法。通过将梁分解为较小的段，工程师可以确保负载得到适当管理，计算得以简化，整体安全性得到优先考虑。随着建筑技术的不断发展，掌握梁的划分的重要性将在创造经得起时间考验的坚固高效结构中继续保持首要地位。