conductibility

简明释义

英[kənˌdʌktɪˈbɪlɪti]美[kənˌdʌktəˈbɪləti]

n. 传导性

英英释义

单词用法

同义词

反义词

例句

1.The isolate cluster can not become the continuous electron transport path, therefore, the formation of the isolate cluster will reduce the conductibility.

孤立的原子簇不能成为导电通道，因此它的存在将减少导电性能。

2.Copper plating technology is widely applied to the field of electronic materials manufacturing for the good electrical conductibility, heat conductivity and ductility of copper deposit.

电镀铜层具有良好的导电、导热、延展性等优点，因此，电镀铜技术被广泛应用于电子材料制造领域。

3.The diamond particles with metallized surface have much the same sinterability, weldability and electrical conductibility (for electroplating)as common metal particles.

这种表面金属化的金刚石颗粒具有一般金属颗粒的可烧结性、可焊接性及表面可导电（可电镀）性。

4.Silver plating color variation affects not only its outlook but also its electricity conductibility.

银镀层变色不仅影响镀层的外观，更重要的是影响镀层的导电性能。

5.Calcium acid phosphate as bioactive material has bone conductibility, and has been commonly used in substitution and padding of clinical bone defect.

磷酸钙盐作为生物活性材料具有骨传导性，已广泛应用于临床骨缺损的替代和填充。

6.Copper plating technology is widely applied to the field of electronic materials manufacturing for the good electrical conductibility, heat conductivity and ductility of copper deposit.

电镀铜层具有良好的导电、导热、延展性等优点，因此，电镀铜技术被广泛应用于电子材料制造领域。

7.Based on the change of the conductibility of the solution during the formation of the particles, the formation mechanism of the monodispersed particles was discussed.

跟踪测定了均分散粒子形成过程中体系电导率的变化，探讨了均分散粒子的形成机制。

8.In electronics, materials with good conductibility are essential for circuit design.

在电子学中，具有良好导电性的材料对于电路设计至关重要。

9.The conductibility of a solution can affect the efficiency of electrolysis.

溶液的导电性会影响电解的效率。

10.The metal's high conductibility allows it to efficiently transfer heat.

这种金属的高导电性使其能够有效地传导热量。

11.The conductibility of water is an important factor in assessing its purity.

水的导电性是评估其纯度的重要因素。

12.Copper is often preferred over aluminum due to its superior conductibility.

由于铜的优越导电性，它通常比铝更受欢迎。

作文

Conductibility is a term that refers to the ability of a material to conduct electric current or heat. This property is crucial in various fields, including physics, engineering, and materials science. Understanding the concept of conductibility (导电性) is essential for anyone involved in these disciplines, as it influences the design and functionality of numerous devices and systems.In the realm of electricity, different materials exhibit varying degrees of conductibility (导电性). Metals like copper and aluminum are known for their high conductibility (导电性), making them ideal choices for electrical wiring. On the other hand, materials such as rubber and glass are poor conductors, demonstrating low conductibility (导电性). This fundamental difference is rooted in the atomic structure of these materials; metals have free electrons that can move easily, while insulators lack this feature.The importance of conductibility (导电性) extends beyond simple electrical applications. In thermal dynamics, conductibility (导电性) also plays a significant role. For instance, metals not only conduct electricity but also heat efficiently. This property is why cooking utensils are often made from materials with high thermal conductibility (导电性), such as stainless steel or copper. In contrast, materials with low thermal conductibility (导电性) are used for insulation purposes, helping to retain heat in buildings or appliances.In the context of environmental science, the conductibility (导电性) of water is another critical factor. The presence of dissolved salts and minerals affects the conductibility (导电性) of water, which can have implications for aquatic life and water quality. High levels of conductibility (导电性) in natural water bodies may indicate pollution, as contaminants often increase the concentration of ions in the water. Therefore, monitoring the conductibility (导电性) of water is vital for maintaining healthy ecosystems.In summary, conductibility (导电性) is a multifaceted property that impacts various scientific and practical fields. Whether we are designing electrical circuits, selecting materials for construction, or assessing environmental health, understanding conductibility (导电性) allows us to make informed decisions. As technology advances, the study of conductibility (导电性) continues to evolve, leading to innovations in materials that optimize performance and efficiency. By grasping the significance of conductibility (导电性), we can appreciate the intricate relationships between materials and their applications in our daily lives.

导电性是指材料传导电流或热量的能力。这个特性在物理学、工程学和材料科学等多个领域至关重要。理解conductibility（导电性）的概念对于任何参与这些学科的人来说都是必不可少的，因为它影响着众多设备和系统的设计与功能。在电力领域，不同材料表现出不同程度的conductibility（导电性）。像铜和铝这样的金属以其高conductibility（导电性）而闻名，成为电线的理想选择。另一方面，橡胶和玻璃等材料则是很差的导体，显示出低conductibility（导电性）。这种根本差异源于这些材料的原子结构；金属具有可以自由移动的电子，而绝缘体则缺乏这一特征。Conductibility（导电性）的重要性不仅限于简单的电气应用。在热动力学中，conductibility（导电性）也发挥着重要作用。例如，金属不仅能有效地导电，还能有效地导热。这一特性使得烹饪用具通常由具有高热conductibility（导电性）的材料制成，如不锈钢或铜。相反，低热conductibility（导电性）的材料则用于绝缘目的，有助于在建筑或电器中保持热量。在环境科学的背景下，水的conductibility（导电性）也是一个关键因素。溶解盐和矿物质的存在会影响水的conductibility（导电性），这可能对水生生物和水质产生影响。自然水体中高水平的conductibility（导电性）可能表明污染，因为污染物通常会增加水中离子的浓度。因此，监测水的conductibility（导电性）对于维护健康的生态系统至关重要。总之，conductibility（导电性）是一个多方面的特性，影响着各个科学和实际领域。无论我们是在设计电路、选择建筑材料还是评估环境健康，理解conductibility（导电性）使我们能够做出明智的决策。随着技术的进步，conductibility（导电性）的研究不断发展，推动了优化性能和效率的材料创新。通过掌握conductibility（导电性）的重要性，我们可以欣赏到材料与日常生活中应用之间的复杂关系。