aggregate structure

简明释义

1. 集合伐构造; 2. 团聚构造;

英英释义

例句

1.The aggregate structure 集料结构 of the concrete mix was crucial for the durability of the building.

混凝土混合物的集料结构对建筑物的耐久性至关重要。

2.Analyzing the aggregate structure 集料结构 of the sediment helps geologists understand past environmental conditions.

分析沉积物的集料结构有助于地质学家了解过去的环境条件。

3.In materials science, understanding the aggregate structure 集料结构 of composites can lead to improved mechanical properties.

在材料科学中，理解复合材料的集料结构可以提高机械性能。

4.Researchers are studying the aggregate structure 集料结构 of soil to improve agricultural productivity.

研究人员正在研究土壤的集料结构以提高农业生产力。

5.The construction of the bridge required a detailed analysis of the aggregate structure 集料结构 to ensure stability.

这座桥的建设需要对集料结构进行详细分析，以确保稳定性。

作文

In the world of materials science and engineering, understanding the concept of aggregate structure is crucial for both researchers and practitioners. The term aggregate structure refers to the arrangement and interaction of different particles or components within a material. This can include everything from the size and shape of individual grains in concrete to the molecular structure of polymers. By analyzing the aggregate structure of a material, scientists can predict its mechanical properties, durability, and overall performance in various applications.For instance, in concrete technology, the aggregate structure plays a significant role in determining the strength and stability of the final product. Concrete is composed of cement, water, and aggregates, which are often sand and gravel. The way these aggregates are packed together, their size distribution, and their surface texture all contribute to the aggregate structure of the concrete mix. A well-designed aggregate structure can lead to increased load-bearing capacity and reduced susceptibility to cracking and other forms of deterioration.Moreover, the aggregate structure is not just limited to construction materials; it also applies to biological systems. For example, the aggregate structure of proteins in a cell can influence how those proteins interact with each other and perform their functions. Misfolded proteins can lead to diseases such as Alzheimer’s and Parkinson’s, highlighting the importance of understanding the aggregate structure at a molecular level.In the realm of nanotechnology, the aggregate structure takes on a new dimension. Nanoparticles can exhibit unique properties due to their small size and high surface area. The aggregate structure of these nanoparticles can significantly affect their behavior in various environments, including their reactivity and stability. Researchers are continuously exploring how to manipulate the aggregate structure of nanoparticles to create more efficient catalysts, drug delivery systems, and advanced materials.In summary, the aggregate structure is a fundamental concept that spans multiple disciplines, including materials science, biology, and nanotechnology. By understanding how different components interact within a given aggregate structure, we can enhance the performance of materials, improve health outcomes, and innovate new technologies. As research advances, the insights gained from studying aggregate structures will undoubtedly lead to significant breakthroughs across various fields, demonstrating the importance of this concept in both theoretical and practical applications.

在材料科学和工程的世界中，理解集料结构的概念对研究人员和从业者来说至关重要。术语集料结构指的是材料中不同颗粒或成分的排列和相互作用。这可以包括从混凝土中单个颗粒的大小和形状到聚合物的分子结构。通过分析材料的集料结构，科学家可以预测其机械性能、耐久性以及在各种应用中的整体表现。例如，在混凝土技术中，集料结构在决定最终产品的强度和稳定性方面起着重要作用。混凝土由水泥、水和集料组成，通常是沙子和砾石。这些集料的堆积方式、大小分布和表面纹理都会影响混凝土混合物的集料结构。设计良好的集料结构可以提高承载能力，并减少开裂和其他形式的劣化的敏感性。此外，集料结构不仅限于建筑材料；它也适用于生物系统。例如，细胞中蛋白质的集料结构可以影响这些蛋白质彼此之间的相互作用及其功能的执行。错误折叠的蛋白质可能导致阿尔茨海默病和帕金森病等疾病，这突显了在分子水平上理解集料结构的重要性。在纳米技术领域，集料结构又赋予了新的维度。纳米颗粒由于其小尺寸和高表面积而表现出独特的性质。这些纳米颗粒的集料结构可以显著影响其在各种环境中的行为，包括其反应性和稳定性。研究人员不断探索如何操纵纳米颗粒的集料结构，以创造更高效的催化剂、药物递送系统和先进材料。总之，集料结构是一个基本概念，跨越多个学科，包括材料科学、生物学和纳米技术。通过理解在给定集料结构中不同成分如何相互作用，我们可以增强材料的性能、改善健康结果，并创新新技术。随着研究的进展，从研究集料结构中获得的见解无疑将导致各个领域的重要突破，证明了这一概念在理论和实践应用中的重要性。