Field Case | Stable and Efficient Infrared Thermal Imaging Cameras Empower Scientific Research and Intelligent Manufacturing

When conducting R&D, testing and various material analysis in scientific research laboratories, it is necessary to monitor the temperature in real time and grasp the subtle temperature differences of products. Using an infrared thermal imaging camera can help researchers simplify the detection process, efficiently and safely collect accurate and reliable temperature data and thermal images, and perform multi-dimensional analysis to identify abnormal points. It can also record the experimental process in detail and export the corresponding experimental analysis results.

Scientific Research - Application Case

Temperature Rise Test of Probe at Probe Station

When a semiconductor technology company in Shanghai conducts probe test experiments at a probe station, it needs to observe the temperature rise changes of the probe station's probe during operation under different current levels. If the temperature rises abnormally, it may cause unstable probe performance and inaccurate indicators. By using Guide Sensmart infrared thermal imaging cameras, R&D personnel can intuitively see the temperature rise changes and identify the highest temperature point, thereby optimizing product design and improving product performance.

High Field Laser Physics Laboratory

The high field laser physics laboratory of a research institute in Shanghai needs to detect the overall heating of the sample after a laser emits high-power energy and acts on it. Since contact temperature measurement cannot be used, this user choose a Guide Sensmart infrared thermal imaging camera for temperature measurement. This non-contact, long-distance temperature measurement method can ensure safety while obtaining high-precision temperature information, ensuring the accuracy of experimental results.

Temperature Distribution Test of Silicon Carbide Sample

A university laboratory in East China needs to test the detailed temperature distribution of silicon carbide samples wrapped in quartz glass tubes. The difficulty encountered by this user is that the silicon carbide sample is wrapped by a quartz glass tube and the quartz glass tube cannot be removed at present, resulting in the inability to directly test the detailed temperature distribution of the silicon carbide sample. After determining the emissivity of the quartz glass tube, the user can use an infrared thermal imaging camera to measure the surface temperature distribution of the quartz glass tube and the temperature of the silicon carbide sample, thereby helping researchers quickly obtain the temperature state of the silicon carbide sample.

Temperature Rise Detection of Superhydrophobic Nanomaterials

The refrigeration and cryogenic engineering laboratory of an engineering college in central China needs to monitor the high temperature rise process of a superhydrophobic nanomaterial from 0°C‌ to 150°C‌ under infrared light irradiation, as well as the low temperature rise process and time from minus 30°C‌. Guide Sensmart infrared thermal imaging camera can detect the temperature of materials in real time and form a temperature rise curve report, which intuitively displays the temperature change process and is convenient for users to observe and record.

R&D and Testing of Coal Conveyor Belt Monitoring System

The coal conveyor belt will generate high temperature hazards during its continuous operation. If a fire occurs, an extremely serious fire may occur at the entire coal transportation site, even endangering the coal storage bunker. A photoelectric detection and sensing integrated engineering technology research center in central China needs to pre-build an intelligent perception system for coal conveyor belt temperature monitoring to strengthen the temperature monitoring of the coal conveying system and prevent accidents such as fire and breakage of the coal conveyor belt. The on-site R&D personnel use a Guide Sensmart infrared thermal imaging camera to monitor temperatures with infrared images of the entire conveyor belt operation process, which can help R&D personnel quickly grasp the real-time temperature information of the conveyor belt, better optimize the intelligent sensing system for coal conveyor belt temperature monitoring.