Company Filing History:
Years Active: 2018
Title: Kehong Tang: Innovator in Micromechanical Testing Equipment
Introduction
Kehong Tang is a distinguished inventor based in Jilin, China. He has made significant contributions to the field of material testing, particularly in the development of innovative equipment designed to assess micromechanical properties under various conditions. His work is characterized by a focus on multi-load and multi-physical field coupled conditions, which is crucial for understanding material behavior.
Latest Patents
Kehong Tang 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 advanced testing equipment comprises several modules, including a frame supporting module, a tension/compression-low cycle fatigue module, a torsioning module, a three-point bending module, an impressing module, a thermal field and magnetic field application module, an in-situ observation module, and a clamp body module. The equipment is capable of applying five different types of loads, enabling intensive studies on the micromechanical properties of materials. It utilizes built-in electric, thermal, and magnetic application modules to acquire valuable data on deformation behavior, damage mechanisms, performance weakening, and material properties.
Career Highlights
Kehong Tang is affiliated with Jilin University, where he continues to advance research in material science and engineering. His innovative approach to testing equipment has positioned him as a key figure in the field, contributing to both academic and practical applications.
Collaborations
Kehong Tang has collaborated with notable colleagues, including Hongwei Zhao and Luquan Ren. Their joint efforts have further enhanced the research and development of advanced testing methodologies.
Conclusion
Kehong Tang's contributions to the field of micromechanical testing equipment exemplify the importance of innovation in material science. His patented technology not only advances research but also provides practical solutions for understanding material behavior under complex conditions.