bulk coefficient

简明释义

散装容积系数

英英释义

例句

1.To optimize the design, the architect needed to know the bulk coefficient 体积系数 of the insulation material used.

为了优化设计，建筑师需要知道所用绝缘材料的bulk coefficient 体积系数。

2.The engineer calculated the bulk coefficient 体积系数 of the soil to determine its load-bearing capacity.

工程师计算了土壤的bulk coefficient 体积系数以确定其承载能力。

3.The bulk coefficient 体积系数 can vary significantly between different types of aggregates in concrete.

不同类型的混凝土骨料之间的bulk coefficient 体积系数可能会有显著差异。

4.In material science, the bulk coefficient 体积系数 is crucial for understanding how materials compress under pressure.

在材料科学中，bulk coefficient 体积系数对理解材料在压力下如何压缩至关重要。

5.The bulk coefficient 体积系数 of concrete affects its thermal properties and insulation capabilities.

混凝土的bulk coefficient 体积系数影响其热性能和绝缘能力。

作文

The concept of bulk coefficient is crucial in various fields, particularly in engineering and materials science. It refers to the ratio of the volume of a material when it is in bulk form to its volume when it is in a more compact state. Understanding this coefficient is essential for predicting how materials will behave under different conditions. For instance, when designing structures, engineers must consider how materials expand or contract with changes in temperature and pressure. The bulk coefficient helps in determining the appropriate materials to use for specific applications, ensuring safety and durability.In the world of construction, the bulk coefficient plays a significant role in selecting the right types of concrete and aggregates. Different materials have varying bulk coefficients, which influence their weight and strength. For example, lightweight aggregates may have a lower bulk coefficient, making them suitable for structures where reducing weight is critical. On the other hand, heavier materials with a higher bulk coefficient might be chosen for applications requiring enhanced stability and strength.Moreover, the bulk coefficient is not only relevant in construction but also in the manufacturing of products. In industries such as pharmaceuticals and food processing, understanding the bulk coefficient can lead to better product formulations. For example, when creating a powdered medication, manufacturers need to know how the powder behaves in bulk versus how it behaves when it is compressed into tablets. The bulk coefficient informs them about the flowability and packing density of the powder, which are critical factors in ensuring consistent dosages and product quality.Furthermore, the bulk coefficient is essential in environmental studies, particularly in understanding soil properties. Soil scientists often measure the bulk coefficient of different soil types to evaluate their capacity to hold water and support plant growth. A soil with a high bulk coefficient may indicate that it has a lot of compacted particles, which can affect its drainage capabilities. This information is vital for agricultural practices, as it helps farmers determine the best crops to plant based on soil conditions.In summary, the bulk coefficient is a fundamental concept that impacts various fields, including engineering, manufacturing, and environmental science. By understanding the bulk coefficient, professionals can make informed decisions that enhance the performance and reliability of materials and products. Whether in constructing a building, developing a new pharmaceutical product, or managing agricultural land, the bulk coefficient serves as a key parameter that influences outcomes and ensures efficiency. As industries continue to evolve, the importance of understanding the bulk coefficient will only grow, highlighting the need for ongoing research and education in this area.

“体积系数”这一概念在多个领域中至关重要，特别是在工程和材料科学中。它指的是一种材料在大宗状态下的体积与其在更紧凑状态下的体积之比。理解这一系数对于预测材料在不同条件下的行为至关重要。例如，在设计结构时，工程师必须考虑材料在温度和压力变化下的膨胀或收缩情况。“体积系数”有助于确定用于特定应用的合适材料，从而确保安全性和耐久性。在建筑领域，“体积系数”在选择合适的混凝土和骨料时发挥着重要作用。不同材料具有不同的“体积系数”，这会影响它们的重量和强度。例如，轻质骨料可能具有较低的“体积系数”，使其适合用于需要减轻重量的结构。另一方面，具有较高“体积系数”的重型材料可能被选择用于要求增强稳定性和强度的应用。此外，“体积系数”不仅与建筑有关，还与产品制造相关。在制药和食品加工等行业，理解“体积系数”可以导致更好的产品配方。例如，在制造粉状药物时，制造商需要知道粉末在大宗状态下的行为与压缩成片剂时的行为。 “体积系数”告知他们粉末的流动性和堆积密度，这些都是确保剂量一致性和产品质量的关键因素。此外，“体积系数”在环境研究中也至关重要，特别是在理解土壤特性方面。土壤科学家通常测量不同土壤类型的“体积系数”，以评估其保持水分和支持植物生长的能力。具有高“体积系数”的土壤可能表明其颗粒紧密堆积，这会影响其排水能力。这些信息对于农业实践至关重要，因为它帮助农民根据土壤条件确定最佳种植作物。总之，“体积系数”是一个基本概念，影响着包括工程、制造和环境科学在内的多个领域。通过理解“体积系数”，专业人员可以做出明智的决策，从而提高材料和产品的性能和可靠性。无论是在建造建筑、开发新药品还是管理农业用地，“体积系数”都是影响结果并确保效率的关键参数。随着各行业的不断发展，理解“体积系数”的重要性只会增加，突显了在这一领域持续研究和教育的必要性。