cooling channel

简明释义

冷却通风

英英释义

例句

1.The design of the cooling channel was optimized for better heat transfer efficiency.

为了更好的热传导效率，冷却通道的设计进行了优化。

2.Properly sized cooling channels can significantly improve the thermal performance of a component.

适当尺寸的冷却通道可以显著提高组件的热性能。

3.During the injection molding process, the cooling channel plays a critical role in maintaining the desired temperature.

在注塑过程中，冷却通道在维持所需温度方面起着关键作用。

4.The engineer designed a new type of mold with an efficient cooling channel to reduce cycle time.

工程师设计了一种新型模具，具有高效的冷却通道以减少循环时间。

5.We need to analyze the flow rate through the cooling channels to ensure effective heat dissipation.

我们需要分析冷却通道中的流速，以确保有效的散热。

作文

In the field of engineering and manufacturing, the term cooling channel refers to a specialized pathway designed to facilitate the efficient cooling of components during various processes. These channels are crucial in systems where heat generation is significant, such as in injection molding, metal casting, and even in electronic devices. The primary function of a cooling channel is to allow a coolant, typically a liquid or gas, to flow through it, absorbing heat from the surrounding material and thereby maintaining optimal operating temperatures. This is vital for preventing overheating, which can lead to material deformation, reduced mechanical properties, or even catastrophic failure of the component.The design of a cooling channel is not a trivial task; it requires careful consideration of several factors including the geometry of the channel, the type of coolant used, and the overall system dynamics. For instance, in injection molding, the placement of cooling channels within the mold can significantly affect the cycle time and the quality of the final product. A well-designed cooling channel can reduce the cooling time, allowing for faster production rates and greater energy efficiency.Moreover, advancements in technology have led to the development of innovative cooling channels, such as those created using additive manufacturing techniques. These methods allow for more complex geometries that can enhance the cooling efficiency by increasing the surface area available for heat exchange. Additionally, the use of computational fluid dynamics (CFD) simulations has become commonplace in the design phase, enabling engineers to predict how fluids will behave within the cooling channels and optimize their designs accordingly.In electronic devices, cooling channels play a critical role in thermal management. As electronic components generate heat during operation, effective cooling solutions are necessary to ensure reliability and longevity. Engineers often integrate cooling channels into heat sinks or other thermal management systems to dissipate heat away from sensitive components, thus preventing thermal runaway scenarios that could damage the device.Furthermore, the environmental impact of cooling systems cannot be overlooked. The choice of coolant and the efficiency of cooling channels can influence energy consumption and emissions. In recent years, there has been a push towards more sustainable practices, leading to the exploration of eco-friendly coolants and energy-efficient designs.In conclusion, the concept of a cooling channel is integral to many engineering applications, serving as a key component in managing heat effectively. Whether in manufacturing processes or electronic systems, the design and implementation of cooling channels can significantly impact performance, efficiency, and sustainability. As technology continues to evolve, so too will the strategies employed in creating these essential pathways for heat dissipation, ensuring that systems operate within safe temperature limits and maintain their functionality over time.

在工程和制造领域，术语cooling channel指的是一种专门的通道，旨在促进在各种过程中有效冷却组件。这些通道在热量产生显著的系统中至关重要，例如注塑、金属铸造甚至电子设备。cooling channel的主要功能是允许冷却液（通常是液体或气体）通过它流动，从周围材料中吸收热量，从而保持最佳工作温度。这对于防止过热至关重要，过热可能导致材料变形、机械性能降低，甚至导致组件的灾难性故障。cooling channel的设计并不是一项简单的任务；它需要仔细考虑多个因素，包括通道的几何形状、所用冷却液的类型和整体系统动态。例如，在注塑中，cooling channel在模具中的放置可以显著影响周期时间和最终产品的质量。设计良好的cooling channel可以减少冷却时间，从而加快生产速度，提高能源效率。此外，技术的进步导致了创新的cooling channel的发展，例如使用增材制造技术创建的通道。这些方法允许更复杂的几何形状，可以通过增加可用于热交换的表面积来增强冷却效率。此外，计算流体动力学（CFD）模拟在设计阶段已变得普遍，工程师可以预测流体在cooling channels中的行为，并相应地优化他们的设计。在电子设备中，cooling channels在热管理中扮演着关键角色。由于电子组件在运行过程中会产生热量，有效的冷却解决方案对于确保可靠性和长期使用至关重要。工程师通常将cooling channels集成到散热器或其他热管理系统中，以将热量从敏感组件中散发出去，从而防止可能损坏设备的热失控情况。此外，冷却系统的环境影响也不容忽视。冷却液的选择和cooling channels的效率会影响能耗和排放。近年来，推动更可持续实践的趋势导致对环保冷却液和节能设计的探索。总之，cooling channel的概念在许多工程应用中至关重要，作为有效管理热量的关键组件。无论是在制造过程中还是电子系统中，cooling channels的设计和实施都可以显著影响性能、效率和可持续性。随着技术的不断发展，创建这些基本热散发通道的策略也将不断演变，确保系统在安全温度范围内运行，并保持其长期功能。