Xueling Yao

Title: Xueling Yao: Innovator in Lightning Damage Assessment for CFRP Materials

Introduction

Xueling Yao is a prominent inventor based in Shaanxi, China. He has made significant contributions to the field of materials science, particularly in the assessment of lightning damage to carbon fiber reinforced polymer (CFRP) materials. His innovative approach combines theoretical research with practical applications, enhancing the safety and reliability of CFRP materials in various industries.

Latest Patents

Xueling Yao holds a patent for a "Lightning damage assessment method for carbon fiber reinforced polymer material considering non-linear impedance characteristic." This method involves several steps, including studying the various influencing factors of lightning damage on CFRP materials. It establishes a relationship between the lightning damage area and depth and various factors such as peak value, rising rate, charge transfer amount, and specific energy of the lightning current component. The patent also includes the development of a multi-factor assessment model to quantify lightning damage, providing valuable insights for engineers and researchers.

Career Highlights

Xueling Yao is affiliated with Xi'an Jiaotong University, where he engages in research and development related to advanced materials. His work has garnered attention for its practical implications in improving the durability and safety of CFRP materials in environments prone to lightning strikes. His innovative methods are paving the way for safer applications of CFRP in various engineering fields.

Collaborations

Xueling Yao has collaborated with notable colleagues, including Jinru Sun and Jingliang Chen. These partnerships have fostered a collaborative research environment, leading to advancements in the understanding of lightning damage and its effects on materials.

Conclusion

Xueling Yao's contributions to the field of lightning damage assessment for CFRP materials highlight his innovative spirit and dedication to advancing material science. His work not only enhances the understanding of lightning interactions with materials but also provides practical solutions for improving safety in engineering applications.