lattice pitch

简明释义

晶格间距

英英释义

例句

1.The architect recommended a smaller lattice pitch for better aesthetic appeal.

建筑师建议使用较小的格子间距以提高美观性。

2.Adjusting the lattice pitch can improve the load distribution in the framework.

调整格子间距可以改善框架中的负载分布。

3.In this project, we need to calculate the optimal lattice pitch for the support beams.

在这个项目中，我们需要计算支撑梁的最佳格子间距。

4.The engineer specified the lattice pitch to ensure proper spacing between the structural elements.

工程师指定了格子间距以确保结构元素之间的适当间距。

5.During the construction, the workers measured the lattice pitch carefully to avoid errors.

在施工过程中，工人们仔细测量了格子间距以避免错误。

作文

In the world of engineering and architecture, precision is paramount. One term that often arises in discussions about structural design is lattice pitch. This term refers to the distance between the joints or nodes in a lattice structure. Understanding lattice pitch is crucial for engineers and architects as it directly impacts the strength and stability of a structure. A well-calculated lattice pitch can enhance the load-bearing capacity of a framework, while an improper measurement can lead to structural failure. Lattice structures are commonly used in various applications, from bridges to towers and even in modern buildings. These structures typically consist of interconnected elements arranged in a crisscross pattern, which distributes loads effectively. The lattice pitch plays a significant role in determining how these elements work together. For instance, in a bridge, if the lattice pitch is too wide, the bridge may not be able to support the weight of vehicles efficiently. Conversely, if it is too narrow, unnecessary material may be used, increasing costs without providing additional benefits. When designing a lattice structure, engineers must consider various factors that influence the optimal lattice pitch. These factors include the type of materials used, the expected loads on the structure, and environmental conditions such as wind and seismic activity. By carefully analyzing these elements, engineers can determine the most effective lattice pitch that balances safety, functionality, and cost-effectiveness. Moreover, advancements in technology have allowed for more sophisticated modeling techniques that enable engineers to simulate how different lattice pitches will perform under various conditions. With the help of computer-aided design (CAD) software, designers can visualize and test their ideas before actual construction begins. This capability not only improves the accuracy of the lattice pitch but also enhances overall project efficiency. In addition to its technical implications, the concept of lattice pitch can also be applied metaphorically in other fields. For example, in project management, the idea of spacing out tasks and responsibilities can be likened to finding the right lattice pitch. Just as an engineer must optimize the distance between lattice nodes to ensure stability, a project manager must balance workloads among team members to maintain productivity and morale. In conclusion, the term lattice pitch encapsulates a fundamental aspect of structural design that is essential for creating safe and efficient constructions. Whether in engineering, architecture, or even project management, understanding the importance of spacing and balance can lead to better outcomes. As we continue to innovate and push the boundaries of what is possible in construction and design, the principles behind lattice pitch will remain at the forefront of our endeavors. In summary, lattice pitch (格子间距) is a critical factor in ensuring the integrity and efficiency of lattice structures, influencing everything from bridges to buildings. Its significance extends beyond mere measurements, impacting safety, cost, and performance across various domains.

在工程和建筑的世界中，精确至关重要。一个常常出现在结构设计讨论中的术语是lattice pitch（格子间距）。这个术语指的是格子结构中连接点或节点之间的距离。理解lattice pitch对于工程师和建筑师来说至关重要，因为它直接影响结构的强度和稳定性。经过良好计算的lattice pitch可以增强框架的承载能力，而不当的测量则可能导致结构失效。 格子结构通常用于各种应用，从桥梁到塔楼，甚至现代建筑。这些结构通常由以交叉模式排列的相互连接的元素组成，有效地分配负荷。lattice pitch在确定这些元素如何协同工作方面起着重要作用。例如，在一座桥上，如果lattice pitch过宽，桥可能无法有效支持车辆的重量。相反，如果它过窄，则可能会使用不必要的材料，增加成本而没有提供额外的好处。 在设计格子结构时，工程师必须考虑影响最佳lattice pitch的各种因素。这些因素包括所用材料的类型、结构上预期的负荷以及风和地震等环境条件。通过仔细分析这些元素，工程师可以确定最有效的lattice pitch，在安全性、功能性和成本效益之间取得平衡。 此外，技术的进步使得更复杂的建模技术得以实现，使工程师能够模拟不同的lattice pitches在各种条件下的表现。在计算机辅助设计（CAD）软件的帮助下，设计师可以在实际施工开始之前可视化和测试他们的想法。这种能力不仅提高了lattice pitch的准确性，还增强了整体项目效率。 除了其技术含义之外，lattice pitch的概念还可以在其他领域进行隐喻应用。例如，在项目管理中，任务和责任的适当间隔可以比作寻找合适的lattice pitch。正如工程师必须优化格子节点之间的距离以确保稳定性，项目经理也必须在团队成员之间平衡工作负载，以维持生产力和士气。 总之，术语lattice pitch（格子间距）概括了结构设计的一个基本方面，这对创建安全和高效的建筑至关重要。无论是在工程、建筑还是项目管理中，理解间距和平衡的重要性都能带来更好的结果。随着我们不断创新并推动建筑和设计的可能性，lattice pitch背后的原则将始终处于我们努力的前沿。 总而言之，lattice pitch（格子间距）是确保格子结构完整性和效率的关键因素，影响从桥梁到建筑的方方面面。其重要性超越了单纯的测量，在各个领域影响安全、成本和性能。