thermographic

简明释义

英[/ˌθɜrməˈɡræfɪk/]美[/ˌθɜrməˈɡræfɪk/]

温度记录图的

温度记录器的

英英释义

单词用法

同义词

反义词

例句

1.This thesis researches into the theory of applying the infrared thermographic inspection technology to detecting faults in concrete.

故在土木工程领域，红外热像检测技术的应用不像在其它产业部分那样普遍。

2.The thermographic inspection system is attached to ultrasonic inspection and modified to enable thermographic inspection of target materials at distances compatible with laser ultrasonic inspection.

热像检查系统附加于超声检查并且改动成以允许在与激光超声检查兼容的距离处对目标材料的热像检查。

3.The principle and the main instrument of the thermographic slag detection system (TSD) based on IR technology are introduced.

本文介绍了使用红外成像技术的热图像炉渣检测仪工作的基本原理及系统构成。

4.This inspection system combines an ultrasonic inspection system and a thermographic inspection system.

这个检查系统结合超声检查系统和热像检查系统。

5.The thermographic inspection system is attached to ultrasonic inspection and modified to enable thermographic inspection of target materials at distances compatible with laser ultrasonic inspection.

热像检查系统附加于超声检查并且改动成以允许在与激光超声检查兼容的距离处对目标材料的热像检查。

6.Infrared thermographic non destructive testing (it NDT) was increasingly used in the inspection of composite materials due to large surface, rapid and noncontact testing capabilities.

红外热成像无损检测由于检测面积大、速度快和非接触从而在复合材料缺陷检测中的应用越来越广泛。

7.The experiments on test pieces with natural defects and artificial defects were made to evaluate the ability of infrared thermographic NDT.

利用含有自然缺陷和人工缺陷的试片对红外热像检测的检测能力进行了评价。

8.The thermographic method as a nondestructive testing for the detection of subsurface defects is investigated. Results are given for the evaluation of defects in a series of thin-walled materials.

研究了红外热成象技术用于近表面缺陷的探测，给出了对两种薄壁材料中缺陷的探测结果。

9.WANG X F. the research on key technology of stress analysis based on infrared thermographic technology [d]. Harbin: Harbin Institute of technology, 2008.

[2]王喜丰。基于红外热像技术的应力分析关键技术研究[D]。哈尔滨：哈尔滨工业大学，2008。

10.The basic theory of infrared thermographic testing was introduced.

介绍红外层析检测的基本原理。

11.The thermographic analysis revealed unexpected temperature variations in the machinery.

该热成像分析揭示了机器中意外的温度变化。

12.The engineer used a thermographic camera to detect heat leaks in the building.

工程师使用热成像相机检测建筑物的热泄漏。

13.In medical diagnostics, thermographic imaging can help identify areas of inflammation.

在医学诊断中，热成像成像可以帮助识别炎症区域。

14.A thermographic survey of the electrical system helped prevent potential failures.

对电气系统的热成像调查帮助防止了潜在故障。

15.Firefighters utilize thermographic technology to locate hotspots in burning buildings.

消防员利用热成像技术定位燃烧建筑物中的热点。

作文

Thermography is a fascinating technology that has gained popularity in various fields, including medicine, engineering, and environmental studies. At its core, thermography involves the use of infrared cameras to capture images based on the heat emitted by objects. One of the most common applications of this technology is in medical diagnostics, where it is often referred to as thermographic (热成像的) imaging. This non-invasive technique allows doctors to visualize temperature variations in the body, which can be critical for identifying inflammation, poor circulation, or even tumors. For instance, when a patient presents with unexplained pain, a thermographic (热成像的) scan can reveal underlying issues that may not be visible through traditional imaging techniques such as X-rays or MRIs.In the field of engineering, thermographic (热成像的) inspections are crucial for maintaining the integrity of structures and machinery. Engineers utilize thermal imaging to detect heat anomalies in electrical systems, mechanical components, and building envelopes. By identifying areas that are overheating, they can prevent potential failures and ensure safety. For example, an engineer might conduct a thermographic (热成像的) analysis of a power line to spot hot spots that could indicate failing equipment, thus allowing for proactive maintenance before a catastrophic failure occurs.Environmental scientists also benefit from thermographic (热成像的) technology, particularly in wildlife studies and habitat monitoring. By utilizing thermal imaging, researchers can observe animal behavior without disturbing their natural environment. This method provides insights into the activity patterns of nocturnal animals or those that inhabit dense forests. Additionally, thermographic (热成像的) techniques can be employed to monitor temperature changes in ecosystems, helping scientists understand the effects of climate change on different species.Despite its many advantages, the use of thermographic (热成像的) technology does come with challenges. The accuracy of thermal imaging can be influenced by factors such as ambient temperature, humidity, and the reflective properties of surfaces. Thus, proper training and calibration are essential for professionals who rely on this technology. Furthermore, while thermographic (热成像的) imaging can provide valuable information, it is often used in conjunction with other diagnostic tools to form a comprehensive understanding of a situation.In conclusion, thermographic (热成像的) technology is an invaluable tool across various disciplines, offering unique insights that traditional methods may overlook. As advancements continue to be made in thermal imaging technology, its applications will likely expand, providing even greater benefits in medical diagnostics, engineering, and environmental research. Understanding the principles and applications of thermographic (热成像的) imaging is crucial for professionals in these fields, as it enhances their ability to make informed decisions and improve outcomes. As we move forward, embracing such innovative technologies will undoubtedly lead to better solutions for complex problems in our world.