Industry: Machinery Region: Germany Transaction price: US$ 1 million Transaction method: equity investment
Project introduction:
There is a company in Germany, which focuses on the testing of mechanical materials. It can directly test the strength of real parts without preparing complex standard samples, with the characteristics of little damage, high precision and high speed. Through automatic multi-sample screening, more than 500 stress-strain curves can be obtained in a short time, and the preliminary results can usually be obtained within one minute.
Technical advantages:
It can detect the mechanical properties locally, and then capture the strength gradient, such as in the heat affected zone, surface layer or additive manufacturing structure with target work hardening characteristics. This makes the company an ideal choice for research, development and production monitoring. By eliminating time-consuming sample preparation, fixture and machine conversion, the cost is greatly reduced, and the insight and accuracy are not affected, which brings new efficiency to material characterization.
Application field:
1. Research and development
It provides a way for research institutions to obtain material properties related to stress and strain directly on components, which is suitable for spatial resolution material research and economical and efficient parameter research.
2. cars
This technology can detect the safety key components such as welds and collision areas, and can directly provide spatially resolved material properties on real components.
3. Medical treatment
Quality assurance and material analysis of implants and functional parts can be carried out directly in the production process.
4. Electronics and small components
It can provide accurate insight into the mechanical properties of small parts, and is suitable for functional monitoring, fault analysis and quality control in the electronic industry.
Cooperation mode:
Partners seeking intelligent alternative solutions that require traditional tensile testing.