plate dissipation

简明释义

屏极耗散

英英释义

例句

1.To prevent failure, monitor the plate dissipation 板耗散 regularly during operation.

为防止故障，定期监测操作中的板耗散 plate dissipation。

2.The engineer calculated the plate dissipation 板耗散 to ensure the system would not overheat.

工程师计算了板耗散 plate dissipation以确保系统不会过热。

3.The plate dissipation 板耗散 affects the overall efficiency of the circuit.

板耗散 plate dissipation影响电路的整体效率。

4.The research paper discussed methods to reduce plate dissipation 板耗散 in high-performance devices.

研究论文讨论了减少板耗散 plate dissipation在高性能设备中的方法。

5.In the design phase, we need to consider the plate dissipation 板耗散 for optimal thermal management.

在设计阶段，我们需要考虑板耗散 plate dissipation以实现最佳的热管理。

作文

In the field of physics and engineering, the concept of plate dissipation plays a crucial role in understanding how materials behave under various conditions. Plate dissipation refers to the process through which energy is lost in the form of heat when a material, typically a plate or a surface, interacts with its environment. This phenomenon can be observed in numerous applications, from the design of electronic devices to the construction of buildings. To illustrate the importance of plate dissipation, consider the example of a heat sink used in electronic circuits. Heat sinks are designed to absorb and dissipate heat generated by electronic components, ensuring they operate within safe temperature limits. The effectiveness of a heat sink largely depends on its ability to maximize plate dissipation, allowing for efficient thermal management. Engineers must carefully select materials and designs that enhance this dissipation process to prevent overheating and potential failure of the device.Moreover, plate dissipation is not limited to electronics; it is also significant in civil engineering. For instance, when designing a building, engineers must account for how heat will be dissipated through various surfaces, such as walls and roofs. The materials chosen for these surfaces can greatly influence the overall energy efficiency of the structure. By optimizing plate dissipation, architects and engineers can create buildings that maintain comfortable indoor temperatures while minimizing energy consumption.Another critical area where plate dissipation is relevant is in the automotive industry. Vehicles generate a considerable amount of heat due to engine operation, friction between moving parts, and other factors. Effective plate dissipation systems, such as radiators and exhaust systems, are essential for maintaining optimal operating temperatures and ensuring the longevity of vehicle components. Engineers must design these systems to maximize heat transfer and minimize energy loss, showcasing the practical implications of plate dissipation in everyday life.In addition to these applications, plate dissipation also has implications in environmental science. For instance, researchers study how heat dissipates from various surfaces in urban environments, which can influence local climate conditions. Understanding the dynamics of plate dissipation helps in developing strategies to mitigate urban heat islands, where cities experience higher temperatures than surrounding rural areas due to human activities and infrastructure.In conclusion, plate dissipation is a fundamental concept that spans multiple disciplines, including physics, engineering, and environmental science. Its significance cannot be overstated, as it affects the performance, efficiency, and sustainability of various systems. By enhancing our understanding of plate dissipation, we can innovate and improve technologies that benefit society as a whole. Whether it’s in electronics, construction, automotive design, or environmental management, the principles of plate dissipation continue to shape the world around us.

在物理和工程领域，plate dissipation的概念在理解材料在各种条件下的行为方面起着至关重要的作用。Plate dissipation指的是材料（通常是板或表面）与其环境相互作用时以热量形式损失能量的过程。这种现象可以在许多应用中观察到，从电子设备的设计到建筑物的建造。为了说明plate dissipation的重要性，可以考虑一个用于电子电路的散热器的例子。散热器旨在吸收和散发电子元件产生的热量，确保它们在安全的温度范围内运行。散热器的有效性在很大程度上取决于其最大化plate dissipation的能力，从而实现高效的热管理。工程师必须仔细选择增强这一散热过程的材料和设计，以防止过热和潜在的设备故障。此外，plate dissipation不仅限于电子产品；在土木工程中也具有重要意义。例如，在设计建筑物时，工程师必须考虑热量如何通过各种表面（如墙壁和屋顶）散发。这些表面所选择的材料可以极大地影响结构的整体能效。通过优化plate dissipation，建筑师和工程师可以创建在最小化能耗的同时保持舒适室内温度的建筑。另一个与plate dissipation相关的关键领域是汽车工业。车辆由于发动机运转、运动部件之间的摩擦等因素产生大量热量。有效的plate dissipation系统，如散热器和排气系统，对于维持最佳操作温度和确保车辆组件的耐用性至关重要。工程师必须设计这些系统以最大化热传递和最小化能量损失，这展示了plate dissipation在日常生活中的实际影响。除了这些应用之外，plate dissipation在环境科学中也有重要意义。例如，研究人员研究热量如何从城市环境中的各种表面散发，这可能会影响当地气候条件。理解plate dissipation的动态有助于制定减缓城市热岛效应的策略，即城市由于人类活动和基础设施而经历的温度高于周围农村地区。总之，plate dissipation是一个跨越多个学科的基本概念，包括物理学、工程学和环境科学。其重要性不可低估，因为它影响着各种系统的性能、效率和可持续性。通过增强我们对plate dissipation的理解，我们可以创新并改善惠及整个社会的技术。无论是在电子产品、建筑、汽车设计还是环境管理中，plate dissipation的原理继续塑造着我们周围的世界。