Infrared thermal imaging solutions for R&D

Award-winning scientific thermal imaging cameras

Born for the laboratory

Whether it is production and research and development, or academic research and development, research laboratories for all kinds of materials, hardware testing, can not be separated from the real-time temperature monitoring. Infrared thermal imaging cameras help researchers collect accurate and reliable thermal data, thermal images, and multi-dimensional analysis in seconds to easily record experimental processes, analyze research results, and produce experimental reports.

Polymer material testing

Polymer materials are polymers synthesized by monomers. In the molding process, the polymer may be affected by changes in temperature, pressure, stress and time of action, which affect the structure and quality of the material. The thermal imaging camera can directly observe the reaction temperature, study the structure and mass of the material at different reaction temperatures, and confirm the optimum reaction temperature. With a 100 micron macro mirror, you can observe fine targets, use full-radiation video streaming, you can record full-radiation video, with analysis software for accurate analysis of temperature data.

FOTRIC 220

Polymer material testing

Polymer materials are polymers synthesized by monomers. In the molding process, the polymer may be affected by changes in temperature, pressure, stress and time of action, which affect the structure and quality of the material. The thermal imaging camera can directly observe the reaction temperature, study the structure and mass of the material at different reaction temperatures, and confirm the optimum reaction temperature. With a 100 micron macro mirror, you can observe fine targets, use full-radiation video streaming, you can record full-radiation video, with analysis software for accurate analysis of temperature data.

FOTRIC 220

Tumor photothermal therapy

Photothermal therapy is the forefront and hot spot of tumor therapy, the core is the application of nanomaterials with super photothermal conversion efficiency. The effect of photothermal therapy is related to the cumulative number of nanoparticles in the tumor site, tumor location, lighting parameters and light patterns, temperature is one of the most important physical assessments. At the drug research stage, it is necessary to identify different drugs, different concentrations of temperature rise process. Use thermal imaging cameras to detect temperature changes in the entire cancerous tissue under laser exposure without any interference with the experiment. Full-radiation thermal video records the full temperature rise process of tumor-targeted treatment, cooperates with analysis software, and makes comparative tests on the temperature rise of different concentrations of materials, visualizing the experimental effect.

FOTRIC 220

Tumor photothermal therapy

Photothermal therapy is the forefront and hot spot of tumor therapy, the core is the application of nanomaterials with super photothermal conversion efficiency. The effect of photothermal therapy is related to the cumulative number of nanoparticles in the tumor site, tumor location, lighting parameters and light patterns, temperature is one of the most important physical assessments. At the drug research stage, it is necessary to identify different drugs, different concentrations of temperature rise process. Use thermal imaging cameras to detect temperature changes in the entire cancerous tissue under laser exposure without any interference with the experiment. Full-radiation thermal video records the full temperature rise process of tumor-targeted treatment, cooperates with analysis software, and makes comparative tests on the temperature rise of different concentrations of materials, visualizing the experimental effect.

FOTRIC 220

Fiber laser quality inspection

The overall electrical-optical efficiency of fiber lasers is 30% to 35%, and most of the energy is dissipated in the form of thermal energy. Temperature control directly determines the quality and service life of the laser. The use of thermal imaging cameras to make plant detection, measurement is convenient, does not affect the object under test, intuitively see the problem point and accurate positioning, can ensure the quality of fiber laser machine.

FOTRIC 220

Fiber laser quality inspection

The overall electrical-optical efficiency of fiber lasers is 30% to 35%, and most of the energy is dissipated in the form of thermal energy. Temperature control directly determines the quality and service life of the laser. The use of thermal imaging cameras to make plant detection, measurement is convenient, does not affect the object under test, intuitively see the problem point and accurate positioning, can ensure the quality of fiber laser machine.

FOTRIC 220

Tire durability test

Tire safety is an important part of automotive research and development. The temperature of the tyre surface affects the size of the grip and the tire pressure. The use of thermal imaging cameras for tire testing, can directly show the operating status of the entire tire, reaction performance, help improve the design, production, material selection and so on.

FOTRIC 220

Tire durability test

Tire safety is an important part of automotive research and development. The temperature of the tyre surface affects the size of the grip and the tire pressure. The use of thermal imaging cameras for tire testing, can directly show the operating status of the entire tire, reaction performance, help improve the design, production, material selection and so on.

FOTRIC 220

Our Advantages

Fast, Intuitive, Accurate, and Durable.

Durable Quality
Accurate Measurement
Intuitive Display
Fast Diagnose