coefficient of fineness delta

简明释义

船型)肥瘠系数

英英释义

例句

1.In material science, the coefficient of fineness delta helps in assessing the particle size distribution.

在材料科学中，细度系数delta有助于评估颗粒大小分布。

2.During the lab tests, we measured the coefficient of fineness delta of various aggregates.

在实验室测试中，我们测量了各种骨料的细度系数delta。

3.A higher coefficient of fineness delta usually indicates finer materials, which can affect the strength of the final product.

较高的细度系数delta通常表示材料更细，这会影响最终产品的强度。

4.The engineer calculated the coefficient of fineness delta to determine the quality of the soil for construction.

工程师计算了细度系数delta以确定土壤的质量以便施工。

5.The coefficient of fineness delta is crucial for optimizing the performance of cement in construction projects.

细度系数delta对于优化建筑项目中水泥的性能至关重要。

作文

Understanding the concept of the coefficient of fineness delta is essential in various fields, particularly in engineering and materials science. This term refers to a quantitative measure that assesses the fineness or particle size distribution of materials, such as powders or aggregates. In essence, the coefficient of fineness delta helps determine how fine or coarse a material is, which can significantly affect its properties and applications. For instance, in construction, the size of aggregates can influence the strength and durability of concrete. As such, knowing the coefficient of fineness delta allows engineers to select appropriate materials for specific projects, ensuring optimal performance and safety.The calculation of the coefficient of fineness delta typically involves analyzing the particle size distribution curve obtained from sieve analysis or laser diffraction methods. These methods provide data on the percentage of particles retained on various sieves, allowing for the determination of average particle sizes. The coefficient of fineness delta is then derived from this data, providing a single value that encapsulates the material's fineness characteristics.In practical applications, the coefficient of fineness delta can be used to compare different materials or batches of the same material. For example, if two types of sand are being considered for a construction project, their coefficient of fineness delta values can help determine which one is more suitable based on the required specifications. A lower coefficient of fineness delta indicates finer particles, which may lead to better packing density and improved mechanical properties in certain situations.Moreover, the coefficient of fineness delta plays a crucial role in quality control processes. Manufacturers often monitor this coefficient to ensure consistency in their products. Variations in the coefficient of fineness delta can indicate issues in production, such as changes in raw material sources or processing conditions. By maintaining a consistent coefficient of fineness delta, companies can uphold product quality and meet industry standards.In summary, the coefficient of fineness delta is a vital parameter in the assessment of material properties. Its significance spans across various industries, including construction, pharmaceuticals, and food processing. Understanding this concept not only aids in selecting the right materials but also enhances the overall quality and performance of products. As industries continue to evolve, the importance of accurately measuring and interpreting the coefficient of fineness delta will only increase, highlighting the need for professionals in these fields to develop a robust understanding of this critical metric.

理解细度系数delta的概念在多个领域中至关重要，特别是在工程和材料科学中。这个术语指的是一种定量测量，用于评估材料（如粉末或骨料）的细度或颗粒大小分布。实质上，细度系数delta帮助确定材料是多么细或粗，这会显著影响其特性和应用。例如，在建筑中，骨料的大小会影响混凝土的强度和耐久性。因此，了解细度系数delta使工程师能够为特定项目选择合适的材料，以确保最佳性能和安全。细度系数delta的计算通常涉及分析通过筛分分析或激光衍射方法获得的颗粒大小分布曲线。这些方法提供了在各种筛网上保留的颗粒百分比的数据，从而允许确定平均颗粒大小。然后从这些数据中推导出细度系数delta，提供一个单一的值，概括材料的细度特征。在实际应用中，细度系数delta可用于比较不同材料或同一材料的不同批次。例如，如果考虑两种类型的沙子用于建筑项目，它们的细度系数delta值可以帮助确定哪一种更适合所需的规格。较低的细度系数delta表示颗粒更细，这可能导致在某些情况下更好的填充密度和改善的机械性能。此外，细度系数delta在质量控制过程中也发挥着至关重要的作用。制造商通常监控这一系数，以确保产品的一致性。细度系数delta的变化可能表明生产中的问题，例如原材料来源或加工条件的变化。通过保持一致的细度系数delta，公司可以维持产品质量并满足行业标准。总之，细度系数delta是评估材料特性的一个重要参数。它的意义跨越建筑、制药和食品加工等多个行业。理解这一概念不仅有助于选择合适的材料，还能提升产品的整体质量和性能。随着行业的不断发展，准确测量和解释细度系数delta的重要性将只会增加，这突显了这些领域专业人士需要建立对这一关键指标的深入理解。