As a non-contact nondestructive testing technology, infrared thermal imager is of great help to laboratory scientific research. The high-resolution, accurate, sensitive and reliable infrared thermal imager can play a very key role in scientific research projects. For industrial research and development, academic research and other aspects, what are the detailed applications of infrared thermal camera?

1. Industrial Research and Development

Thermal imagers help developers analyze, observe, and quantify the heat dissipation and thermal properties of research projects. This helps to keep the thermal efficiency of the development project under constant and stable control, shorten the design cycle and avoid costly product recall. Include:

Electrical Testing

The challenge of PCB design is how to manage heat dissipation without reducing the performance or cost of the product. Due to the smaller and smaller size of electronic components, it is extremely difficult to accurately understand their thermal information. But with thermal imaging technology, engineers can easily visualize and quantify the heat maps of their manufacturing equipment. If used in the design phase of complex printed circuit boards, it can effectively avoid subsequent failures and costly recalls.

Car Industry

The car industry spends more on research and development to produce more efficient, safer and more capable cars than any other industry. One of the keys to success in the car industry has been to get reliable new products to market faster. Thermal imaging can help automotive engineers improve the design of airbag systems, verify the efficiency of heating and cooling systems, quantify the impact of thermal shock on tire wear, and test the performance and quality of joints and welds.

Industrial Laboratory Test Bed

Getting new products to market faster is one of the "secrets of success" in many industries. The earlier in the product design process infrared thermal camera is used for thermal model validation and fault analysis, or simply for better placement of thermocouples, the better the benefits will be. With the help of infrared technology, companies can shorten the research and development cycle and improve product quality, thus increasing their profits.

Pharmaceutical Research

New drug research and development with the help of infrared technology. The scientists studied what happened to the titrator plate by observing changes in the temperature of the chemical reaction.

2. Academic Research

Thermal imaging is becoming more and more popular in university classrooms and laboratories. In the teaching environment, the instructors use thermal imaging technology to help students understand heat transfer and thermodynamics theory, and deepen their understanding of important concepts.

Life Science

Thermal imaging is an accurate, quantifiable, non-contact diagnostic technique that can be used to observe and quantify changes in surface temperature. Its applications include vascular assessment, tissue condition monitoring, muscle strain analysis and bleeding point detection.

Fast-moving event

High-speed infrared imaging has microsecond exposure time and can freeze the visual movement of dynamic scenes, capturing frame rates of more than 10,000 frames per second. Research applications include: shooting, supersonic projectile, explosion, combustion process, laser and many other fields.

Infrared Microimaging

Combined with a microscope, the thermal camera becomes a thermal imaging microscope that can accurately measure the temperature of objects as small as three microns. The researchers used a thermal imaging microscope to depict the thermal properties of components and semiconductor substrates in a contactless manner.

3. Introduction of high-end infrared thermal camera dedicated for scientific research in laboratory

YOSEEN X1024B has an infrared resolution of 1024x768, with accurate temperature measurement and fine brightness. Full-width HD, flagship quality, excellent performance. Suitable for all kinds of complex and harsh operating environments, it is the best choice for high-end application of infrared thermal imager and suitable for various laboratory scientific research applications.

Product Features

Full width, high definition, accurate temperature measurement

A proprietary temperature measurement correction algorithm based on microthermal radiation characteristics is designed to realize all-weather real-time accurate temperature measurement.

High - quality flagship model, the choice of high-end applications

With 1024x768 infrared resolution and 780,000 + pixels high and low temperature real-time monitoring, it can be described as fine.

Adapt to complex and harsh working environment

For high temperature, outdoor, explosion-proof and other special industry working environment depth optimization.

Digital streaming media output, support ONVIF and other protocols

Compatible with the existing security monitoring system, seamless access to the mainstream security NVR products.

05 KGS / 100 MB Ethernet data stream output

Data bandwidth adaptive to meet the requirements of networking.

Professional software provides data analysis and management

Supporting professional software to help users realize complex business applications more conveniently.