thermoelement
简明释义
英[ˌθɜrmoʊˈɛlɪmənt]美[ˌθɜrmoʊˈɛlɪmənt]
n. [电] 热电偶;温差电元件
英英释义
A thermoelement is a type of temperature sensor that generates a voltage in response to a temperature difference, commonly used in thermocouples. | 热电元件是一种温度传感器,能够对温度差产生电压,通常用于热电偶。 |
单词用法
同义词
| 热电偶 | A thermocouple is commonly used in industrial applications to measure temperature. | 热电偶通常用于工业应用中测量温度。 | |
| 温度传感器 | Temperature sensors are essential for monitoring environmental conditions. | 温度传感器对于监测环境条件至关重要。 |
反义词
| 绝缘体 | 橡胶是电的良好绝缘体。 | ||
| 非导体 | Wood is often used as a non-conductor in electrical applications. | 木材常被用作电气应用中的非导体。 |
例句
1.A tripping device comprises a traction rod, a thermoelement, a bimetallic element, a magnetic system, a lock catch, and a jump pin.
脱扣装置包括牵引杆、热元件、双金属元件、磁系统、锁扣及跳扣。
2.NIST measures the AC-DC difference of customer's thermal voltage converters by comparing them with standards composed of a thermoelement in series with a multiplying resistor.
NIST测量客户的热电压转换器,用来和那些由串联热电偶和一个电阻相乘的AC - DC对比区别。
3.NIST measures the AC-DC difference of customer's thermal voltage converters by comparing them with standards composed of a thermoelement in series with a multiplying resistor.
NIST测量客户的热电压转换器,用来和那些由串联热电偶和一个电阻相乘的AC - DC对比区别。
4.To ensure efficiency, the HVAC system was equipped with a high-quality thermoelement.
为了确保效率,暖通空调系统配备了高质量的热电元件。
5.The thermoelement is crucial for the furnace's safety system.
这个热电元件对炉子的安全系统至关重要。
6.In our lab, we use a thermoelement for precise thermal measurements.
在我们的实验室中,我们使用热电元件进行精确的热测量。
7.The engineer installed a new thermoelement to monitor the temperature accurately.
工程师安装了一个新的热电元件以准确监测温度。
8.We replaced the faulty thermoelement in the refrigerator to restore its cooling function.
我们更换了冰箱中故障的热电元件以恢复其制冷功能。
作文
In the world of science and technology, various components play crucial roles in the functioning of devices and systems. One such essential component is the thermoelement, which is widely used in temperature measurement and control applications. A thermoelement is a type of sensor that converts thermal energy into an electrical signal, allowing for accurate temperature readings. This conversion process is based on the principle of thermoelectricity, which involves the generation of voltage when there is a temperature difference between two junctions of different conductive materials. The most common type of thermoelement is the thermocouple, which consists of two dissimilar metals joined at one end. When the junction is heated or cooled, a voltage is produced that corresponds to the temperature change. This characteristic makes thermoelements invaluable in various industries, including manufacturing, automotive, and aerospace. For instance, in the automotive sector, thermoelements are used to monitor engine temperatures, ensuring optimal performance and preventing overheating. Moreover, thermoelements are not only limited to industrial applications; they are also found in everyday household appliances. Many modern ovens and refrigerators utilize thermoelements to maintain precise temperature control, enhancing energy efficiency and food safety. The versatility of thermoelements extends to scientific research as well, where they are employed in laboratories to measure the temperature of various substances during experiments.Understanding how thermoelements work can help individuals appreciate their significance in our daily lives. The basic operation involves measuring the voltage generated by the temperature difference across the junction. This voltage is then interpreted by a digital display or an analog gauge, providing users with real-time temperature readings. The simplicity and reliability of thermoelements make them a preferred choice for temperature sensing over other methods.In conclusion, the thermoelement is a fundamental component in temperature measurement technology. Its ability to convert thermal energy into an electrical signal allows for accurate and efficient temperature monitoring across various applications. From industrial machinery to household appliances, the impact of thermoelements is evident in many aspects of modern life. By recognizing the importance of these devices, we can better understand the underlying principles of temperature control and its relevance in our daily activities.
在科学和技术的世界中,各种组件在设备和系统的运作中起着至关重要的作用。其中一个重要的组件是thermoelement,它广泛应用于温度测量和控制。thermoelement是一种传感器,可以将热能转换为电信号,从而实现准确的温度读数。这一转换过程基于热电原理,即当两种不同导电材料的两个接点之间存在温差时,会产生电压。最常见的thermoelement类型是热电偶,它由两种不同金属在一端连接而成。当接点被加热或冷却时,会产生与温度变化相对应的电压。这一特性使得thermoelements在制造、汽车和航空航天等多个行业中具有不可或缺的价值。例如,在汽车行业,thermoelements用于监控发动机温度,以确保最佳性能并防止过热。此外,thermoelements不仅限于工业应用;它们也出现在日常家用电器中。许多现代烤箱和冰箱利用thermoelements来保持精确的温度控制,提高能效和食品安全。thermoelements的多功能性同样延伸到科学研究领域,在实验室中,它们被用于测量各种物质在实验过程中的温度。了解thermoelements的工作原理可以帮助人们欣赏它们在我们日常生活中的重要性。其基本操作涉及测量接点之间温差产生的电压。然后,这个电压会被数字显示器或模拟仪表解读,为用户提供实时温度读数。thermoelements的简单性和可靠性使其成为温度传感的首选方法。总之,thermoelement是温度测量技术中的基本组件。它将热能转换为电信号的能力使得在各种应用中实现准确和高效的温度监测。从工业机械到家用电器,thermoelements的影响在现代生活的许多方面显而易见。通过认识到这些设备的重要性,我们可以更好地理解温度控制的基本原理及其在日常活动中的相关性。
