basic mesh size

简明释义

1. 筛号; 2. 网目尺寸;

英英释义

例句

1.In aquaculture, selecting the right basic mesh size 基本网格尺寸 is essential for preventing fish escape.

在水产养殖中，选择合适的基本网格尺寸对于防止鱼类逃逸至关重要。

2.When designing a screen, it's crucial to determine the basic mesh size 基本网格尺寸 required for the application.

在设计筛网时，确定所需的基本网格尺寸是至关重要的。

3.We need to adjust the basic mesh size 基本网格尺寸 to improve the product's performance.

我们需要调整基本网格尺寸以提高产品性能。

4.The laboratory conducted tests to evaluate different basic mesh sizes 基本网格尺寸 for soil sampling.

实验室进行了测试，以评估不同的基本网格尺寸用于土壤取样。

5.The manufacturer specifies the basic mesh size 基本网格尺寸 for optimal filtration.

制造商指定了最佳过滤的基本网格尺寸。

作文

In various fields of science and engineering, understanding the concept of basic mesh size is crucial for effective design and analysis. The term basic mesh size refers to the dimensions of the smallest unit in a mesh structure, which is typically used in computational simulations, material science, and engineering applications. This size plays a significant role in determining the accuracy and efficiency of simulations, as well as the overall performance of materials and structures. For instance, in computational fluid dynamics (CFD), the basic mesh size dictates how finely the computational domain is divided into smaller elements. A smaller basic mesh size allows for more detailed resolution of fluid flow, capturing intricate phenomena such as turbulence and vortices. However, it also increases the computational load and time required for simulations. Therefore, engineers must strike a balance between achieving sufficient detail and maintaining manageable computational resources.Similarly, in structural analysis, the basic mesh size affects the accuracy of stress and strain calculations in materials. A finer mesh can reveal localized stresses that might be missed with a coarser mesh, which is particularly important in the design of components subjected to high loads or extreme conditions. In this context, understanding the implications of basic mesh size not only aids in creating safer and more efficient designs but also ensures compliance with industry standards and regulations.Moreover, in the field of materials science, the basic mesh size can influence the mechanical properties of composite materials. The arrangement and size of the mesh can alter how forces are distributed within the material, thus affecting its strength, flexibility, and durability. Researchers often conduct experiments varying the basic mesh size to optimize material performance for specific applications, such as aerospace components or biomedical devices.It is also important to consider the context in which the basic mesh size is applied. For example, in geotechnical engineering, the basic mesh size may refer to the grid size used in finite element analysis of soil-structure interaction. Here, an appropriately chosen basic mesh size is vital for accurately predicting settlement and stability issues, which can have significant implications for construction safety and project costs.In conclusion, the concept of basic mesh size is integral across various disciplines, influencing the accuracy of simulations, the performance of materials, and the safety of engineering designs. As technology advances and computational methods become more sophisticated, the ability to effectively manage and optimize basic mesh size will continue to be a key factor in achieving successful outcomes in science and engineering. Understanding this concept allows professionals to make informed decisions that enhance the reliability and effectiveness of their work, ultimately contributing to innovation and progress in their respective fields.

在科学和工程的各个领域，理解基本网格尺寸的概念对于有效的设计和分析至关重要。术语基本网格尺寸指的是网格结构中最小单元的尺寸，这通常用于计算模拟、材料科学和工程应用中。这个尺寸在决定模拟的准确性和效率以及材料和结构的整体性能方面起着重要作用。例如，在计算流体动力学（CFD）中，基本网格尺寸决定了计算域被细分为更小元素的精细程度。较小的基本网格尺寸可以更详细地解析流体流动，捕捉复杂现象，如湍流和涡旋。然而，它也增加了所需的计算负载和时间。因此，工程师必须在实现足够细节和保持可管理的计算资源之间找到平衡。同样，在结构分析中，基本网格尺寸影响材料中应力和应变计算的准确性。更细的网格可以揭示局部应力，而粗糙的网格可能会错过，这在设计承受高负荷或极端条件的组件时尤为重要。在这种情况下，理解基本网格尺寸的影响不仅有助于创建更安全、更高效的设计，还确保符合行业标准和法规。此外，在材料科学领域，基本网格尺寸可以影响复合材料的机械性能。网格的排列和大小可以改变材料内部力的分布，从而影响其强度、柔韧性和耐久性。研究人员通常通过改变基本网格尺寸来优化特定应用的材料性能，例如航空航天组件或生物医学设备。还需要考虑基本网格尺寸应用的上下文。例如，在岩土工程中，基本网格尺寸可能指的是用于土壤-结构相互作用有限元分析的网格大小。在这里，适当地选择基本网格尺寸对于准确预测沉降和稳定性问题至关重要，这对施工安全和项目成本可能产生重大影响。总之，基本网格尺寸的概念在各个学科中都是不可或缺的，影响着模拟的准确性、材料的性能和工程设计的安全性。随着技术的进步和计算方法的日益复杂，有效管理和优化基本网格尺寸的能力将继续成为在科学和工程领域取得成功结果的关键因素。理解这一概念使专业人士能够做出明智的决策，从而提高工作可靠性和有效性，最终促进各自领域的创新和进步。