working temperature

简明释义

工作温度

英英释义

例句

1.The electronic components are rated for a maximum working temperature 工作温度 of 85 degrees Celsius.

这些电子元件的最大工作温度 工作温度为85摄氏度。

2.The machine operates efficiently at a working temperature 工作温度 of 75 degrees Celsius.

这台机器在75摄氏度的工作温度 工作温度下高效运行。

3.The working temperature 工作温度 of the reactor must be carefully monitored to prevent overheating.

反应堆的工作温度 工作温度必须仔细监测以防止过热。

4.During testing, we found that the working temperature 工作温度 significantly affects the battery life.

在测试中，我们发现工作温度 工作温度显著影响电池寿命。

5.For optimal performance, ensure the working temperature 工作温度 does not exceed 100 degrees Fahrenheit.

为了最佳性能，确保工作温度 工作温度不超过100华氏度。

作文

Understanding the concept of working temperature is crucial in various fields, including engineering, manufacturing, and even everyday life. The term working temperature refers to the optimal temperature range at which a machine, device, or material operates efficiently and safely. Knowing this range helps prevent malfunctions, ensure safety, and prolong the lifespan of the equipment or materials involved.In engineering, for instance, different materials have specific working temperatures. Metals, plastics, and composites all react differently when exposed to heat. For example, if a metal component is designed to function at a working temperature of 200 degrees Celsius, exposing it to higher temperatures could lead to thermal expansion, distortion, or even failure. Therefore, engineers must consider these limits during the design phase to avoid catastrophic failures in the field.Similarly, in the manufacturing process, understanding the working temperature is vital for ensuring product quality. Many manufacturing processes, such as injection molding, require precise temperature control to achieve the desired properties in the final product. If the temperature deviates from the specified working temperature, it can result in defects, reduced strength, or other undesirable characteristics. Thus, maintaining the correct working temperature is essential for quality assurance.In electronics, the working temperature is equally important. Electronic components, such as transistors and capacitors, have specified working temperatures beyond which they may fail or operate inefficiently. For example, a capacitor rated for a maximum working temperature of 85 degrees Celsius should not be used in environments where temperatures exceed this limit. This consideration is critical in the design of circuit boards and electronic devices, especially those intended for high-temperature applications like automotive or aerospace systems.Moreover, the working temperature is also relevant in the context of food safety and preservation. Different food items have specific temperature ranges within which they can be stored safely. For instance, perishable items like dairy products and meats must be kept at a working temperature below 4 degrees Celsius to prevent bacterial growth. Understanding these temperature requirements is essential for food manufacturers and consumers alike to ensure food safety and quality.In summary, the term working temperature encompasses a wide range of applications across different industries. Whether it is in engineering, manufacturing, electronics, or food safety, recognizing and adhering to the specified working temperature is key to ensuring optimal performance, safety, and longevity. As technology continues to advance, the importance of understanding working temperature will only grow, making it a fundamental concept that professionals and laypeople alike should be aware of. By keeping these temperature parameters in mind, we can enhance efficiency and reduce the risk of failures in our daily lives and professional endeavors.

理解“工作温度”这一概念在工程、制造业甚至日常生活中都至关重要。术语“工作温度”指的是机器、设备或材料高效、安全运行的最佳温度范围。了解这个范围有助于防止故障，确保安全，并延长相关设备或材料的使用寿命。例如，在工程领域，不同材料具有特定的工作温度。金属、塑料和复合材料在暴露于热量时的反应各不相同。例如，如果一个金属部件设计为在工作温度为200摄氏度下运行，暴露于更高的温度可能会导致热膨胀、变形甚至故障。因此，工程师在设计阶段必须考虑这些限制，以避免在现场发生灾难性故障。同样，在制造过程中，理解工作温度对于确保产品质量至关重要。许多制造过程，如注塑成型，需要精确的温度控制，以实现最终产品所需的特性。如果温度偏离了规定的工作温度，可能会导致缺陷、强度降低或其他不良特性。因此，保持正确的工作温度对质量保证至关重要。在电子产品中，工作温度同样重要。电子元件，如晶体管和电容器，具有特定的工作温度，超出该温度可能会导致它们失效或效率降低。例如，一个额定最大工作温度为85摄氏度的电容器不应在超过该限制的环境中使用。这一考虑在电路板和电子设备的设计中至关重要，尤其是在高温应用（如汽车或航天系统）中。此外，工作温度在食品安全和保存方面也很相关。不同食品在安全存储时有特定的温度范围。例如，易腐烂的食品如乳制品和肉类必须保持在低于4摄氏度的工作温度下，以防止细菌生长。了解这些温度要求对于食品制造商和消费者来说都是确保食品安全和质量的关键。总之，术语工作温度涵盖了不同工业中的广泛应用。无论是在工程、制造、电子还是食品安全领域，识别并遵守规定的工作温度是确保最佳性能、安全性和耐用性的关键。随着技术的不断进步，理解工作温度的重要性只会增加，使其成为专业人士和普通人都应当了解的基本概念。通过牢记这些温度参数，我们可以提高效率，减少日常生活和专业工作中的故障风险。