cable conductor

简明释义

1. 电缆芯线; 2. 电缆心线; 3. 缆芯; 4. 电缆缆芯; 5. 电缆导线;

英英释义

例句

1.The electrician replaced the damaged cable conductor to restore power to the building.

电工更换了损坏的电缆导体以恢复建筑物的电力。

2.In high-voltage applications, the cable conductor must be made of copper or aluminum for better conductivity.

在高压应用中，电缆导体必须由铜或铝制成，以提高导电性。

3.During the installation process, ensure that the cable conductor is properly secured to prevent any accidents.

在安装过程中，确保电缆导体被妥善固定，以防止任何事故。

4.The technician measured the resistance of the cable conductor to check for faults.

技术人员测量了电缆导体的电阻以检查故障。

5.The quality of the cable conductor can significantly affect the efficiency of electrical systems.

电缆导体的质量会显著影响电气系统的效率。

作文

In the modern world, electricity plays a crucial role in our daily lives. One of the essential components for the transmission of electrical energy is the cable conductor. A cable conductor is a material that facilitates the flow of electric current, typically made from metals such as copper or aluminum. These materials are chosen for their excellent conductivity, which allows electricity to pass through with minimal resistance. Understanding the properties and applications of cable conductors is vital for anyone interested in electrical engineering or related fields.The primary function of a cable conductor is to carry electrical power from one point to another. This can be seen in various applications, from household wiring to large-scale power distribution systems. For instance, when we switch on a light bulb, the electrical energy travels through the cable conductor within the walls of our homes, illuminating the room. Without effective cable conductors, our access to electricity would be severely limited, impacting everything from lighting to heating and cooling systems.Moreover, the design and construction of cable conductors can vary significantly depending on their intended use. In high-voltage power lines, for example, the cable conductors are often designed to withstand extreme weather conditions and physical stress. They may be encased in protective insulation to prevent short circuits and ensure safety. On the other hand, smaller cable conductors used in electronic devices may be more flexible and lightweight, allowing for easy installation in compact spaces.The efficiency of a cable conductor is also influenced by its temperature. As the temperature increases, the resistance of the conductor typically rises, which can lead to energy losses in the form of heat. This phenomenon is particularly critical in industrial applications where large amounts of electricity are transmitted. Engineers must consider the thermal properties of cable conductors when designing systems to ensure they operate efficiently and safely under varying conditions.Furthermore, with the rise of renewable energy sources, the role of cable conductors has become even more significant. Solar panels and wind turbines generate electricity that must be transported to homes and businesses, requiring advanced cable conductors capable of handling the unique challenges presented by these technologies. The development of new materials and technologies in this field is ongoing, aiming to create cable conductors that are not only efficient but also environmentally friendly.In conclusion, the cable conductor is a fundamental component of our electrical infrastructure, enabling the safe and efficient transmission of electricity. From residential wiring to industrial power systems, understanding how cable conductors work and their importance in our daily lives is essential. As technology advances and our demand for electricity grows, the evolution of cable conductors will undoubtedly play a pivotal role in shaping the future of energy consumption and distribution.

在现代社会，电力在我们的日常生活中发挥着至关重要的作用。电能传输的一个基本组成部分是电缆导体。电缆导体是一种促进电流流动的材料，通常由铜或铝等金属制成。这些材料因其优良的导电性而被选中，允许电流以最小的阻力通过。理解电缆导体的特性和应用对于任何对电气工程或相关领域感兴趣的人来说都是至关重要的。电缆导体的主要功能是将电力从一个点传输到另一个点。这可以在各种应用中看到，从家庭布线到大规模电力分配系统。例如，当我们打开灯泡时，电能通过家中墙壁内的电缆导体传输，照亮房间。如果没有有效的电缆导体，我们对电力的获取将受到严重限制，影响从照明到供暖和制冷系统的方方面面。此外，电缆导体的设计和构造可能会根据其预期用途而有所不同。在高压电力线路中，例如，电缆导体通常被设计为能够承受极端天气条件和物理压力。它们可能会被包裹在保护绝缘层中，以防止短路并确保安全。而用于电子设备的小型电缆导体则可能更灵活且更轻便，以便于在紧凑空间内安装。电缆导体的效率也受到其温度的影响。随着温度的升高，导体的电阻通常会增加，这可能导致以热量的形式损失能量。这一现象在工业应用中尤为关键，因为在这些应用中需要传输大量电力。工程师在设计系统时必须考虑电缆导体的热特性，以确保它们在不同条件下高效且安全地运行。此外，随着可再生能源的兴起，电缆导体的角色变得更加重要。太阳能电池板和风力涡轮机产生的电力必须传输到家庭和企业，这就需要先进的电缆导体来应对这些技术所带来的独特挑战。该领域新材料和新技术的发展仍在进行中，旨在创造不仅高效而且环保的电缆导体。总之，电缆导体是我们电气基础设施的基本组成部分，使电力的安全和高效传输成为可能。从住宅布线到工业电力系统，理解电缆导体的工作原理及其在我们日常生活中的重要性是必不可少的。随着技术的进步和我们对电力的需求增长，电缆导体的演变无疑将在塑造未来的能源消费和分配中发挥关键作用。