Jiangsu DFSai Optoelectronic Co.,LTD.
Add：No.68, xinkang road cloud courtyard, north high-tech zone, nantong city, jiangsu province
As a result of professional infrared thermal imager can capture the image by the temperature change of the object, at the same time when observations are not need outside provide auxiliary light sources, so the practical application of infrared thermal imager scope is very broad. And now with the effective development of infrared technology and the popularization of application fields, new applications have been developed. Here's a look at what the best infrared thermography machines can be used in.
1. Industrial research and development
The infrared thermal imager can help the developer to analyze and quantify the heat dissipation performance of the project and its thermal properties. This enables the thermal efficiency of the research and development projects to be continuously and steadily controlled, thereby shortening the design cycle and avoiding costly product recalls. It is common in laboratories in electrical testing, automotive manufacturing, pharmaceutical industry and industrial fields.
2. Academic research
In the classrooms and laboratories of various universities, infrared thermal imagers are becoming more and more popular. In the teaching process by the infrared thermal imager and mentors can imaging techniques to make the students fully understand the heat transfer and thermodynamics theory, in order to more image of the teaching methods for students to deepen the understanding of important concepts. It is commonly seen in the academic research of life science, laser and explosion and other rapid mobile events, infrared microimaging and so on.
3. Non-destructive and material detection
The infrared thermal imager can effectively perform various advanced tests, such as nondestructive testing of materials, stress mapping and other aspects, and can also be used to detect the small temperature difference between low and 1mk. It is used in the testing of stress analysis, composite materials, crack detection and solar cells.
These are the most scientific fields of infrared thermal imagers. Because now the developed with the development of science and technology, many advanced project development and design is inseparable from the auxiliary of the infrared thermal imager, and clear imaging, because to capture heat can help researchers better observation and analysis of research objects, thus acquiring more valuable research materials.