Location History:
- Dalian, CN (2022)
- Liaoning, CN (2022 - 2024)
Company Filing History:
Years Active: 2022-2024
Title: Yiping Lu: Innovator in Thermoelectric Materials and High-Entropy Alloys
Introduction
Yiping Lu is a prominent inventor based in Dalian, China. He has made significant contributions to the field of materials science, particularly in thermoelectric materials and high-entropy alloys. With a total of three patents to his name, his work has garnered attention for its innovative approaches and practical applications.
Latest Patents
Yiping Lu's latest patents include a CaTiO-based oxide thermoelectric material and a preparation method thereof. This thermoelectric material, characterized by the chemical formula CaLaTiO, demonstrates properties comparable to n-type ZnO and other oxide thermoelectric materials. Notably, the La15 sample achieves a power factor of up to 8.2 μWcmK at approximately 1000 K and 9.2 μWcmK at room temperature. The material also exhibits a conductivity of up to 2015 Scm at 300 K, showcasing its superior thermoelectric performance among calcium titanate ceramics.
Another significant patent involves a radiation-resistant high-entropy alloy with an FCC structure, defined by the general formula FeCoNiVMoTiCr. This alloy exhibits excellent irradiation resistance and maintains its properties even under high-temperature conditions. The tensile break strength of the alloy exceeds 580 MPa, with an engineering strain greater than 30%, highlighting its remarkable plasticity and specific strength.
Career Highlights
Yiping Lu is affiliated with Dalian University of Technology, where he continues to advance research in innovative materials. His work not only contributes to academic knowledge but also has practical implications in various industries.
Collaborations
Yiping Lu collaborates with notable colleagues, including Tingju Li and Tongmin Wang, enhancing the research output and innovation potential within his field.
Conclusion
Yiping Lu's contributions to thermoelectric materials and high-entropy alloys exemplify the impact of innovative research in materials science. His patents reflect a commitment to advancing technology and improving material performance for future applications.