pyrometric
简明释义
英[ˌpaɪərəʊˈmetrɪk]美[ˌpɪəroˈmetrɪk]
adj. 高温测量的
英英释义
Relating to the measurement of high temperatures, especially in the context of materials and their properties when subjected to heat. | 与高温测量有关,特别是在材料及其在高温下性质的背景下。 |
单词用法
热性能 | |
热设备 | |
热标准 | |
热材料 |
同义词
| 温度测量的 | thermometric measurements are crucial in various scientific experiments. | 温度测量在各种科学实验中至关重要。 | |
| 热量测量的 | calorimetric analysis helps determine the heat of chemical reactions. | 热量测定分析有助于确定化学反应的热量。 |
反义词
例句
1.This behaviour strikingly resembles that recorded in the pyrometric radiation intensity profiles, which will be presented in the following section.
这种特性与将在下节介绍的测高温辐射的强度谱有惊人的相似之处。
2.This behaviour strikingly resembles that recorded in the pyrometric radiation intensity profiles, which will be presented in the following section.
这种特性与将在下节介绍的测高温辐射的强度谱有惊人的相似之处。
3.In ceramics, pyrometric 热量测定的 cones are essential for determining firing temperatures.
在陶瓷中,pyrometric 热量测定的锥体对于确定烧制温度至关重要。
4.The pyrometric 热量测定的 data helped the researchers understand the material's behavior under extreme heat.
这些pyrometric 热量测定的数据帮助研究人员理解材料在极端高温下的行为。
5.The engineer used a pyrometric 热量测定的 device to monitor the temperature of the furnace.
工程师使用了一种pyrometric 热量测定的设备来监控炉子的温度。
6.Using pyrometric 热量测定的 methods, they were able to achieve precise temperature control in their experiments.
通过使用pyrometric 热量测定的方法,他们能够在实验中实现精确的温度控制。
7.The lab technician calibrated the pyrometric 热量测定的 equipment to ensure accurate readings.
实验室技术人员校准了pyrometric 热量测定的设备,以确保读数准确。
作文
In the field of materials science and engineering, temperature plays a crucial role in determining the properties and behavior of various substances. One of the most important aspects of this study is the use of pyrometric (温度测量的) techniques to measure and control temperatures during processes such as melting, sintering, and firing. Understanding pyrometric (温度测量的) methods is essential for anyone involved in the production of ceramics, metals, or glass, as these materials often undergo significant changes when subjected to heat. The term pyrometric (温度测量的) originates from the Greek words 'pyro' meaning fire and 'metric' meaning measurement. This etymology highlights the focus on measuring high temperatures, which are critical in many industrial applications. For instance, in the ceramics industry, pyrometric (温度测量的) cones are used to gauge the temperature within kilns. These cones are made from specific ceramic materials that deform at precise temperatures, providing a visual indication of the heat experienced during firing. Moreover, the concept of pyrometric (温度测量的) measurement extends beyond just cones. Various instruments, including thermocouples and infrared thermometers, are employed to monitor and control temperatures in real-time. These tools are vital for ensuring that the materials reach their desired state without overheating or underheating, which can compromise their structural integrity. In addition to industrial applications, pyrometric (温度测量的) techniques are also significant in research and development. Scientists often conduct experiments involving high-temperature reactions to explore new materials or improve existing ones. By accurately measuring temperatures, researchers can draw correlations between temperature profiles and material properties, leading to innovations in fields such as aerospace, automotive, and electronics. Furthermore, understanding pyrometric (温度测量的) principles is not only limited to professionals in laboratories or factories. It is also relevant for artists and craftsmen who work with materials that require precise heating techniques. For example, glassblowers must maintain specific temperatures to create intricate designs without compromising the glass's quality. Similarly, potters need to understand pyrometric (温度测量的) concepts to achieve the desired finishes on their pottery. In conclusion, the significance of pyrometric (温度测量的) techniques cannot be overstated. They are integral to various industries and disciplines, providing the necessary tools to measure and control high temperatures effectively. As technology continues to advance, the methods of pyrometric (温度测量的) measurement will evolve, allowing for even more precise control over material properties. Whether in a factory, laboratory, or studio, the knowledge of pyrometric (温度测量的) techniques is invaluable for ensuring quality and innovation in the creation of materials.
在材料科学和工程领域,温度在决定各种物质的性质和行为方面起着至关重要的作用。这个研究中最重要的一个方面就是使用pyrometric(温度测量的)技术来测量和控制在熔化、烧结和烧制等过程中产生的温度。理解pyrometric(温度测量的)方法对任何参与陶瓷、金属或玻璃生产的人来说都是必不可少的,因为这些材料在热处理时往往会发生显著变化。术语pyrometric(温度测量的)源自希腊词“pyro”,意为火,以及“metric”,意为测量。这一词源强调了对高温测量的关注,这在许多工业应用中至关重要。例如,在陶瓷工业中,使用pyrometric(温度测量的)锥体来评估窑内的温度。这些锥体由特定的陶瓷材料制成,在精确的温度下变形,从而提供在烧制过程中所经历的热量的视觉指示。此外,pyrometric(温度测量的)测量概念不仅限于锥体。各种仪器,包括热电偶和红外温度计,被用来实时监测和控制温度。这些工具对于确保材料达到所需状态而不被过热或不足热至关重要,因为这可能会影响其结构完整性。除了工业应用,pyrometric(温度测量的)技术在研究与开发中也具有重要意义。科学家们经常进行涉及高温反应的实验,以探索新材料或改进现有材料。通过准确测量温度,研究人员可以绘制温度曲线与材料属性之间的相关性,从而推动航空航天、汽车和电子等领域的创新。此外,理解pyrometric(温度测量的)原理不仅限于实验室或工厂的专业人士。它对艺术家和工匠同样相关,他们使用需要精确加热技术的材料。例如,吹玻璃工人必须保持特定的温度,以创造复杂的设计而不损害玻璃的质量。类似地,陶艺家需要理解pyrometric(温度测量的)概念,以实现陶器的理想表面效果。总之,pyrometric(温度测量的)技术的重要性不容小觑。它们是各行各业和学科的核心,为有效测量和控制高温提供必要的工具。随着技术的不断进步,pyrometric(温度测量的)测量方法将不断演变,使材料属性的控制更加精确。无论是在工厂、实验室还是工作室,了解pyrometric(温度测量的)技术对于确保材料创造中的质量和创新是不可或缺的。
