Company Filing History:
Years Active: 2018
Title: **Innovative In-Situ Testing Equipment Invented by Fu Zhang**
Introduction
Fu Zhang, a notable inventor based in Jilin, China, has made significant contributions to the field of material testing. His innovative approach to exploring micromechanical properties has been encapsulated in his patented invention, which aims to facilitate complex testing under various physical conditions.
Latest Patents
Fu Zhang holds a patent for an "In-situ testing equipment for testing micromechanical properties of material in multi-load and multi-physical field coupled condition." This sophisticated equipment comprises several modules designed to test materials under different loads, including tension/compression, low-cycle fatigue, torsion, bending, and impressing. The testing apparatus incorporates electric, thermal, and magnetic field applications, along with an in-situ observation module, enabling comprehensive studies on deformation behavior, damage mechanisms, and the performance of materials under varied conditions.
Career Highlights
Fu Zhang is affiliated with Jilin University, where he engages in research and innovation within the realm of material sciences. His work is crucial for advancing the understanding of how materials behave under multiple stressors, making it invaluable for various industrial applications.
Collaborations
During his career, Fu Zhang has had the opportunity to collaborate with esteemed colleagues such as Hongwei Zhao and Luquan Ren. Their combined efforts contribute to the rich research environment at Jilin University, fostering advancements in material testing technologies.
Conclusion
Fu Zhang's contributions to the field of material testing reflect his dedication to innovation and research. His patented in-situ testing equipment represents a significant advancement in understanding micromechanical properties, enabling researchers and industries to better analyze material performance under different conditions. As a result, his work continues to pave the way for future breakthroughs in material sciences.