Assoc Prof Dr. Rongjun Cheng | Engineering | Editorial Board Memeber

Hefei University of Technology | China

Dr. Rongjun Cheng, born on September 30, 1988, in Huanggang, Hubei, China, is a mechanical engineer specializing in micro–nano sensing and ultra-precision measurement technologies. He earned his Bachelor’s degree in Mechanical Engineering and Automation from the China University of Geosciences in 2011, followed by a continuous postgraduate–doctoral program at Xi’an Jiaotong University, where he received his Ph.D. in Mechanical Engineering in 2016. His doctoral work focused on resonant pressure sensors, laying the foundation for his long-term contributions to MEMS-based sensing and precision instrumentation. Since joining the Hefei University of Technology in 2016, Dr. Cheng has developed a strong research program centered on micro–nano sensing technology, micro–nano measurement systems, and ultra-precision air motion platforms. His research group has in competitive project funding, reflecting the innovation and applied value of his work. Dr. Cheng has authored numerous peer-reviewed publications in high-quality journals such as Journal of Thermal Stresses, Measurement Science and Technology, Sensors, Micromachines, and AIP Advances. His representative works span thermoelastic damping suppression in micro-beam resonators, advanced microsphere measurement techniques, and high-performance quartz–silicon resonant sensors. Collectively, his publications demonstrate significant technical rigor, with measurable impact in precision engineering, micro-electromechanical systems (MEMS), and metrological science. Dr. Cheng’s research integrates theoretical modeling, microfabrication, and experimental validation, and he has collaborated across interdisciplinary teams working in micro/nano instrumentation and materials science. His contributions support advances in ultra-precise measurement technologies, with potential societal impacts in manufacturing accuracy, scientific instrumentation, and next-generation sensing systems.

Profile: Scopus | ORCID

Featured Publications

1. Zhang, Z., Huang, Q., Liu, H., Li, H., Cheng, R., Zhang, L., & Li, R. (2025). Design and driving control of cross-scale micro-nano coordinate measuring machine. IEEE Transactions on Instrumentation and Measurement. Advance online publication.

2. Xu, J., Huang, Q., Wang, Z., Cheng, R., Zhang, L., Li, H., Wang, C., & Li, R. (2025). Microstructure edge measurement with nanometer lateral resolution based on astigmatism. IEEE Transactions on Instrumentation and Measurement. Advance online publication.

3. Zhang, Z., Huang, Q., Wang, G., Li, H., Zhang, L., Cheng, R., Li, R., & Pan, Q. (2025, August). Design method and error analysis of 3D measurement system in accordance with the Abbe principle. Measurement, 117369.

4. Cheng, R., Jian, H., Li, Y., Huang, Q., Zhang, L., & Li, H. (2025, June). A novel minimum zone method for cylindricity error evaluation based on rotation projection method and adaptive particle swarm optimisation. Precision Engineering.

5. Zhang, Z., Huang, Q., Lu, J., Li, H., Cheng, R., & Zhang, L. (2025). On-machine separation and compensation of target mirror’s surface shape errors in multidimensional interferometric measurement system. Review of Scientific Instruments, 96(1).