Jijun Du

Title: Innovator Spotlight: Jijun Du and His Method for Specimen Preparation

Introduction: Jijun Du, an accomplished inventor based in Wuhan, China, has made significant strides in addressing challenges in geology and materials science. With a unique patent focused on the preparation of specimens from highly-weathered rock, Du is contributing valuable knowledge to the field of geotechnical engineering.

Latest Patents: Jijun Du holds one patent titled "Specimen preparation method for eliminating membrane penetration effect on highly-weathered rock." This innovative method involves a systematic approach to preparing rock specimens by smoothing their originally uneven surfaces using cured liquid latex as a filler. This technique effectively eliminates the membrane penetration effect that often complicates the analysis of highly-weathered rocks. The process includes essential steps such as specimen cutting, pit filling, surface smoothing, specimen shaping, and specimen loading.

Career Highlights: Jijun Du is affiliated with the Chinese Academy of Sciences, where he engages in pioneering research and development. His work focuses on enhancing the reliability and precision of geological specimen preparation, which is critical for both academic research and practical applications in various industries.

Collaborations: Throughout his career, Jijun Du has collaborated with talented colleagues, including Xianwei Zhang, who brings her expertise to the team. Together, they work on advancing methodologies and techniques that contribute to the broader scientific community's understanding of material properties and behaviors.

Conclusion: Jijun Du's innovative approach to specimen preparation highlights his commitment to improving geological research methodologies. His patent not only showcases his ingenuity but also emphasizes the importance of collaboration in advancing scientific discovery. Through his work at the Chinese Academy of Sciences, Du continues to make meaningful contributions to his field, enhancing the understanding of highly-weathered rock and its implications in geotechnical practices.