granular material
简明释义
粒状材料
英英释义
例句
1.Farmers often use granular material 颗粒材料 as fertilizer to enhance soil quality.
农民经常使用颗粒材料 granular material作为肥料,以改善土壤质量。
2.The construction team decided to use granular material 颗粒材料 for the foundation to ensure better drainage.
施工队决定使用颗粒材料 granular material作为基础,以确保更好的排水。
3.The engineer recommended a specific type of granular material 颗粒材料 for the embankment to prevent erosion.
工程师建议使用一种特定类型的颗粒材料 granular material来防止堤坝侵蚀。
4.In the laboratory, we analyzed the properties of different types of granular material 颗粒材料 to determine their suitability for the project.
在实验室中,我们分析了不同类型的颗粒材料 granular material的性质,以确定它们是否适合该项目。
5.The road was paved with granular material 颗粒材料 to improve traction during rainy weather.
道路使用颗粒材料 granular material铺设,以提高雨天的抓地力。
作文
Granular materials are fundamental components in various fields, ranging from construction to pharmaceuticals. These materials consist of discrete particles that can vary in size, shape, and composition. The term "granular material" refers to a collection of macroscopic particles, which are typically larger than 0.1 mm. Understanding the properties and behaviors of granular material (颗粒材料) is crucial for engineers and scientists alike, as it influences the design and functionality of numerous products and structures.In civil engineering, granular material (颗粒材料) plays a vital role in the stability and integrity of structures. For instance, when constructing roads or buildings, engineers often utilize aggregates made of sand, gravel, or crushed stone. These aggregates provide the necessary support and drainage for concrete and asphalt, ensuring that the structures can withstand various loads and environmental conditions. The interaction between different sizes and types of granular material (颗粒材料) can significantly affect the overall performance of construction materials.Moreover, the study of granular material (颗粒材料) extends beyond traditional engineering applications. In the field of physics, researchers explore the behavior of these materials under different conditions. For example, when subjected to stress or vibrations, granular material (颗粒材料) can exhibit unique flow patterns that differ from those of liquids or solids. This phenomenon is particularly relevant in understanding landslides, avalanches, and other natural disasters where the movement of large quantities of granular material (颗粒材料) can pose significant risks.Additionally, the pharmaceutical industry also relies on granular material (颗粒材料) for the formulation of medications. Many drugs are created using powdered ingredients that are compressed into granules. The properties of these granules, such as their size and density, can influence how quickly a drug dissolves in the body, thereby affecting its efficacy. Therefore, understanding the characteristics of granular material (颗粒材料) is essential for developing effective pharmaceutical products.In agriculture, granular material (颗粒材料) is used in soil management and fertilization. Soil is composed of various granular materials (颗粒材料), including sand, silt, and clay, each contributing to the soil's texture and nutrient-holding capacity. Farmers and agronomists study these materials to optimize crop production and ensure sustainable practices. The right balance of granular material (颗粒材料) in soil can enhance water retention, aeration, and root development, leading to healthier plants and higher yields.In conclusion, granular material (颗粒材料) is a versatile and essential component across multiple disciplines. Its unique properties and behaviors make it a subject of interest in engineering, physics, pharmaceuticals, and agriculture. By continuing to study and understand granular material (颗粒材料), we can improve our approaches to construction, disaster prevention, drug formulation, and sustainable farming practices. The significance of granular material (颗粒材料) cannot be overstated, as it forms the foundation of many processes and innovations that impact our daily lives.
颗粒材料是各个领域的基本组成部分,从建筑到制药。这些材料由离散的颗粒组成,颗粒的大小、形状和成分可以有所不同。术语“颗粒材料”指的是一组宏观颗粒,通常大于0.1毫米。理解颗粒材料(granular material)的性质和行为对工程师和科学家至关重要,因为它影响着许多产品和结构的设计与功能。在土木工程中,颗粒材料(granular material)在结构的稳定性和完整性方面发挥着重要作用。例如,在建造道路或建筑物时,工程师通常利用由沙子、砾石或碎石制成的骨料。这些骨料为混凝土和沥青提供必要的支撑和排水,确保结构能够承受各种荷载和环境条件。不同大小和类型的颗粒材料(granular material)之间的相互作用可以显著影响建筑材料的整体性能。此外,颗粒材料(granular material)的研究超越了传统的工程应用。在物理学领域,研究人员探索这些材料在不同条件下的行为。例如,当受到应力或振动时,颗粒材料(granular material)可能会表现出独特的流动模式,这与液体或固体的行为不同。这种现象在理解滑坡、雪崩和其他自然灾害时尤为相关,因为大量颗粒材料(granular material)的运动可能带来重大风险。此外,制药行业也依赖于颗粒材料(granular material)来配方药物。许多药物是使用粉末成分压缩成颗粒而制成的。这些颗粒的性质,如大小和密度,会影响药物在体内溶解的速度,从而影响其有效性。因此,理解颗粒材料(granular material)的特性对于开发有效的药物产品至关重要。在农业中,颗粒材料(granular material)用于土壤管理和施肥。土壤由各种颗粒材料(granular material)组成,包括沙子、淤泥和粘土,每种材料都对土壤的质地和养分保持能力产生影响。农民和农艺师研究这些材料,以优化作物生产并确保可持续的做法。土壤中颗粒材料(granular material)的正确平衡可以增强水分保持能力、通气性和根系发育,从而促进植物健康生长和提高产量。总之,颗粒材料(granular material)是多个学科中一种多功能且必不可少的组成部分。它独特的性质和行为使其成为工程、物理、制药和农业等领域的研究对象。通过继续研究和理解颗粒材料(granular material),我们可以改善对建筑、灾害预防、药物配方和可持续农业实践的处理。颗粒材料(granular material)的重要性不容小觑,因为它构成了许多影响我们日常生活的过程和创新的基础。
