cut-out temperature

简明释义

断开温度

英英释义

例句

1.The air conditioning system will stop functioning when the temperature reaches the cut-out temperature.

当温度达到切断温度时，空调系统将停止运行。

2.If the engine coolant exceeds the cut-out temperature, the engine will shut down to avoid damage.

如果发动机冷却液超过切断温度，发动机将关闭以避免损坏。

3.The thermostat is set to activate at a cut-out temperature of 75 degrees Fahrenheit.

恒温器设置在75华氏度的切断温度时激活。

4.To prevent overheating, the heater is designed with a cut-out temperature that automatically shuts it off.

为了防止过热，暖气设备设计了一个切断温度，可以自动关闭设备。

5.During testing, we observed that the device stopped operating at its designated cut-out temperature.

在测试过程中，我们观察到设备在其指定的切断温度下停止运行。

作文

In the realm of engineering and technology, understanding specific terminologies is crucial for effective communication and application. One such term that often arises in discussions about thermal systems and safety mechanisms is cut-out temperature. The cut-out temperature refers to a designated temperature threshold at which a device or system will automatically shut down or 'cut out' to prevent overheating and potential damage. This concept is particularly significant in various applications, including electrical appliances, automotive systems, and industrial machinery.For instance, consider an electric motor designed to operate within a certain temperature range. If the motor's temperature exceeds the cut-out temperature, it triggers a safety mechanism that disconnects power to the motor, preventing further operation until the temperature drops back to a safe level. This automatic response is vital for ensuring the longevity of the equipment and safeguarding against catastrophic failures that could arise from excessive heat.The importance of the cut-out temperature is not limited to just motors; it also plays a critical role in heating systems, such as boilers and furnaces. These systems are designed with safety features that monitor the temperature of the water or air being heated. If the temperature exceeds the cut-out temperature, the system will shut down to avoid dangerous situations like explosions or fires. Thus, knowing the cut-out temperature is essential for engineers and technicians who design and maintain these systems.In addition to safety, the cut-out temperature can also affect the efficiency of a system. For example, in refrigeration units, maintaining the temperature below the cut-out temperature ensures optimal performance and energy consumption. If the temperature rises too high, not only does it risk damaging the compressor, but it also leads to increased energy usage as the system works harder to cool down.Moreover, the cut-out temperature is a critical factor in the development of new technologies. As engineers strive to create more efficient and compact devices, understanding how materials respond to heat becomes increasingly important. By determining the appropriate cut-out temperature, designers can select suitable materials that will withstand high temperatures without failing, thus enhancing the overall reliability of the product.Furthermore, the cut-out temperature is a key consideration in regulatory standards and safety certifications. Many industries are governed by strict guidelines that dictate the maximum allowable temperatures for equipment. Compliance with these regulations often requires detailed knowledge of the cut-out temperature to ensure that products meet safety requirements before they can be marketed.In conclusion, the term cut-out temperature encapsulates a vital aspect of safety and efficiency in various technological contexts. Whether in motors, heating systems, refrigeration units, or emerging technologies, understanding and applying the concept of cut-out temperature is essential for engineers and technicians alike. It not only aids in the design and maintenance of equipment but also plays a significant role in ensuring safety and compliance with industry standards. As technology continues to evolve, the relevance of the cut-out temperature will undoubtedly remain a critical focus in engineering practices.

在工程和技术领域，理解特定术语对于有效沟通和应用至关重要。其中一个常常出现在关于热系统和安全机制讨论中的术语是cut-out temperature。cut-out temperature指的是一个指定的温度阈值，在这个温度下，设备或系统会自动关闭或“切断”以防止过热和潜在的损坏。这个概念在各种应用中尤为重要，包括电器、汽车系统和工业机械。例如，考虑一个设计为在某一温度范围内运行的电动机。如果电动机的温度超过了cut-out temperature，它会触发一个安全机制，切断电动机的电源，防止继续运行，直到温度降到安全水平。这种自动响应对于确保设备的耐用性和防止因过热而导致的灾难性故障至关重要。cut-out temperature的重要性不仅限于电动机；它在加热系统（如锅炉和炉子）中也发挥着关键作用。这些系统设计有安全特性，可以监测被加热的水或空气的温度。如果温度超过cut-out temperature，系统将关闭，以避免爆炸或火灾等危险情况。因此，了解cut-out temperature对于设计和维护这些系统的工程师和技术人员至关重要。除了安全性，cut-out temperature还会影响系统的效率。例如，在制冷设备中，保持温度低于cut-out temperature可以确保最佳性能和能耗。如果温度过高，不仅会危及压缩机的损坏，还会导致系统为了降低温度而更加努力地工作，从而增加能耗。此外，cut-out temperature在新技术的发展中也是一个关键因素。随着工程师努力创造更高效和紧凑的设备，了解材料对热量的反应变得越来越重要。通过确定适当的cut-out temperature，设计师可以选择合适的材料，这些材料能够承受高温而不失效，从而增强产品的整体可靠性。此外，cut-out temperature是监管标准和安全认证中的关键考虑因素。许多行业受到严格的指导方针的约束，这些指导方针规定了设备的最大允许温度。遵守这些规定通常需要对cut-out temperature有详细的了解，以确保产品在上市之前符合安全要求。总之，术语cut-out temperature概括了在各种技术背景下安全性和效率的重要方面。无论是在电动机、加热系统、制冷设备还是新兴技术中，理解和应用cut-out temperature的概念对于工程师和技术人员都是必不可少的。它不仅有助于设备的设计和维护，还有助于确保安全性和符合行业标准。随着技术的不断发展，cut-out temperature的相关性无疑将继续成为工程实践中的一个关键焦点。