microporosity

简明释义

英[ˌmaɪkrəʊpɔːˈrɒsɪti]美[maɪkroʊpɔːˈrɑːsəti]

n. 微孔性；微孔率；显微疏松

英英释义

单词用法

同义词

反义词

例句

1.Advanced tests like corrosion resistance to molten aluminium, thermomechanical properties, thermal conductivity and microporosity are discussed in respect of application areas for Bonite.

并结合博耐特的相关应用领域进行了博耐特耐火材料抗铝液侵蚀、热机械性能、热导率和微气孔等较为前瞻性的试验和探索。

2.The alloys of the present invention also have a modified eutectic silicon and modified iron morphology, when iron is present, resulting in low microporosity and high impact properties.

当存在铁时，本发明的合金还具有改性的共晶硅和改性的铁形态，从而导致低微孔率和高冲击性。

3.This, in turn, creates a finished die cast product with extremely low levels of microporosity defects.

这又产生具有非常低的微孔隙缺陷的最终模铸产品。

4.Water in microporosity or other small pores.

微孔隙或其它小孔隙中的水。

5.The results show that there was obvious microporosity at the positions indicated by fluorescence, and clear grinding traces and some local microcracks were found at the dovetails.

结果表明荧光显示部位存在明显的显微疏松，榫头处有清晰的磨削痕迹，局部有微裂纹。

6.Advanced tests like corrosion resistance to molten aluminium, thermomechanical properties, thermal conductivity and microporosity are discussed in respect of application areas for Bonite.

并结合博耐特的相关应用领域进行了博耐特耐火材料抗铝液侵蚀、热机械性能、热导率和微气孔等较为前瞻性的试验和探索。

7.The effect of some components, such as initiator AIBN, methacrylate and unsaturated polyester, of impregnation microporosity sealants on their heat resistance were studied.

本文研究了聚合引发剂、甲基丙烯酸酯、不饱和聚酯等浸渍微孔密封剂的几种主要组份对其耐热性的影响。

8.Microporosity of the surface of Gold Plated Contacts which indicates the protection performance of plating layers to matrix is an important index for quality of plating surface features.

镀金触点表面的微孔率是表征镀层质量的重要指标，它表明了镀层对基体防护作用的优劣程度。

9.The presence of microporosity in ceramics can lead to improved mechanical properties.

陶瓷中的微孔隙率的存在可以提高机械性能。

10.Researchers are investigating how microporosity affects the thermal properties of materials.

研究人员正在调查微孔隙率如何影响材料的热性能。

11.In the field of geology, microporosity is crucial for understanding fluid flow in rocks.

在地质学领域，微孔隙率对于理解岩石中的流体流动至关重要。

12.The filtration process was improved by the microporosity of the membrane used.

所用膜的微孔隙率提高了过滤过程的效率。

13.The study of the material revealed significant levels of microporosity, which enhanced its overall strength.

材料的研究显示出显著的微孔隙率，这增强了其整体强度。

作文

Microporosity is a term used in various scientific fields, particularly in materials science and geology. It refers to the presence of tiny pores or voids within a material that are smaller than one micrometer in diameter. These microscopic openings can significantly influence the properties and behavior of the material. Understanding microporosity">微孔隙率 is essential for several applications, including the development of new materials, improving oil recovery, and enhancing the performance of catalysts.One of the most significant areas where microporosity">微孔隙率 plays a critical role is in the field of geology. Rocks often contain various types of porosity, which can affect their strength, permeability, and overall stability. For instance, sedimentary rocks like sandstone and limestone can have high levels of microporosity">微孔隙率, allowing them to store and transmit water or hydrocarbons. This characteristic is vital for understanding groundwater flow and hydrocarbon reservoirs.In materials science, microporosity">微孔隙率 is crucial in the development of advanced materials such as aerogels and certain types of ceramics. Aerogels, known for their remarkable lightness and insulating properties, contain a network of tiny pores that contribute to their unique characteristics. The microporosity">微孔隙率 in these materials allows them to trap air, providing excellent thermal insulation while remaining incredibly lightweight. Researchers are continuously exploring how to manipulate microporosity">微孔隙率 to create materials with tailored properties for specific applications, such as energy storage or filtration.Moreover, the concept of microporosity">微孔隙率 extends to the field of catalysis. Catalysts are substances that speed up chemical reactions without being consumed in the process. The efficiency of many catalysts depends on their surface area and porosity. A high level of microporosity">微孔隙率 increases the surface area available for reactions, enhancing the catalyst's performance. Researchers are investigating various materials, including zeolites and metal-organic frameworks, to optimize microporosity">微孔隙率 for improved catalytic activity.In conclusion, microporosity">微孔隙率 is a fundamental property that influences the behavior of materials across different scientific disciplines. Whether it is in geology, materials science, or catalysis, understanding and manipulating microporosity">微孔隙率 can lead to significant advancements in technology and resource management. As research continues to evolve, the implications of microporosity">微孔隙率 will undoubtedly play a pivotal role in shaping future innovations.

微孔隙率是一个在多个科学领域中使用的术语，特别是在材料科学和地质学中。它指的是材料内部存在的微小孔隙或空隙，这些孔隙的直径小于一个微米。这些微观开口可以显著影响材料的性质和行为。理解microporosity">微孔隙率对多种应用至关重要，包括新材料的开发、提高石油回收率以及增强催化剂的性能。在地质学中，microporosity">微孔隙率发挥着关键作用。岩石通常包含各种类型的孔隙，这会影响它们的强度、渗透性和整体稳定性。例如，砂岩和石灰岩等沉积岩可能具有较高的microporosity">微孔隙率，使其能够储存和传输水或碳氢化合物。这一特性对于理解地下水流动和碳氢化合物储层至关重要。在材料科学中，microporosity">微孔隙率在先进材料的开发中至关重要，例如气凝胶和某些类型的陶瓷。气凝胶以其卓越的轻巧性和绝缘性能而闻名，含有一系列微小的孔隙，这些孔隙有助于其独特的特性。材料中的microporosity">微孔隙率使其能够捕获空气，从而提供出色的热绝缘效果，同时保持极其轻便。研究人员不断探索如何操控microporosity">微孔隙率，以创造具有特定应用所需特性的材料，例如能源存储或过滤。此外，microporosity">微孔隙率的概念还扩展到催化领域。催化剂是加速化学反应的物质，而不被消耗。许多催化剂的效率取决于其表面积和孔隙度。高水平的microporosity">微孔隙率增加了可用于反应的表面积，从而增强催化剂的性能。研究人员正在研究各种材料，包括沸石和金属有机框架，以优化microporosity">微孔隙率，以提高催化活性。总之，microporosity">微孔隙率是一种基本属性，影响着不同科学学科中材料的行为。无论是在地质学、材料科学还是催化中，理解和操控microporosity">微孔隙率都可以带来技术和资源管理的重要进步。随着研究的不断发展，microporosity">微孔隙率的影响无疑将在塑造未来创新中发挥关键作用。