Research Associate at Ningbo Institute of Technology, China.
🎓 Qian Cheng is a dedicated Ph.D. candidate in Mechanical Engineering at Shenyang University of Technology, under the mentorship of Dr. Shijie Wang. He specializes in advanced material design, surface engineering, and tribology. His research integrates nanotechnology, molecular simulations, and experimental validation to enhance polymer composites’ mechanical and aging properties. Qian Cheng has a multidisciplinary approach, combining engineering principles with data-driven methodologies such as machine learning 🤖. With 9 SCI-indexed papers as a first/corresponding author and ongoing cutting-edge projects, he continues to make impactful contributions in the fields of polymer science and mechanical systems 🔬⚙️. Known for his rigorous analytical skills and international academic exposure, including time spent in Germany, Cheng aims to innovate smarter, more resilient materials for modern mechanical systems 🌍🧪.
Professional Profiles
Scopus
ORCID
Education📚
📚 Qian Cheng’s academic journey reflects a strong foundation in mechanical and materials engineering. He began his undergraduate studies in Mechanical Design, Manufacturing, and Automation at Shenyang University of Aeronautics and Astronautics (2011–2015) ✈️🔧. He then pursued a Master’s degree (2016–2019) and is now completing a Ph.D. in Mechanical Engineering (2019–2024) at Shenyang University of Technology 🏫⚙️. During his Master’s, he was selected for an international exchange program at the University of Ahlen, Germany (2018–2019) 🇩🇪, where he specialized in polymer science 🧫. His educational path combines theoretical knowledge and hands-on experimentation with simulation-based analysis. Cheng’s passion for learning and innovation is evident in his commitment to pushing boundaries in materials science and mechanical systems development. His global perspective and interdisciplinary training empower him to tackle complex engineering challenges using both traditional and advanced tools 🌐🛠️.
Professional Experience
Qian Cheng has built his research experience around a comprehensive integration of simulation and experimental mechanics. He has actively contributed to research projects focusing on improving tribological behavior and thermal-oxidative aging resistance in polymer nanocomposites. During his Ph.D., Cheng designed and conducted molecular dynamics simulations to analyze the influence of nanomaterial structures on rubber composites. He also participated in lab-based experiments for materials testing and validation, bridging theory with practice. His stint at the University of Ahlen gave him hands-on experience in international research and polymer analysis. In parallel with his research, he has collaborated with fellow researchers on developing machine learning models for material property prediction. His professional trajectory is marked by academic rigor, publication success, and technical fluency, preparing him to contribute significantly to the field of mechanical and materials engineering.
Research Focus 🔍
Qian Cheng’s research 🔍 revolves around mechanical engineering, polymer nanocomposites, and material simulation. His work focuses on thermo-oxidative aging, mechanical durability, and tribological properties of rubber-based nanomaterials 🧪🛞. Using molecular dynamics simulations, he evaluates how different nanofillers—like carbon nanotubes, graphene oxide, and molybdenum disulfide—impact the performance of nitrile butadiene rubber (NBR) composites 🔄🧬. In addition, Cheng incorporates machine learning to model material behavior, enabling predictive design for future applications 🤖📊. His studies aim to improve the reliability and efficiency of components used in high-friction, high-temperature environments—critical in aerospace, automotive, and machinery sectors ✈️🚗⚙️. He also explores surface engineering and multi-scale materials research, developing systems that integrate nano-level innovation with macro-level function. His ambition is to pioneer sustainable and smart materials for next-generation mechanical equipment 🌿🔧.
Awards and Honors🏆
While specific award names are not provided, Qian Cheng’s prolific publication record in JCR Q1 and Q2 journals like Journal of Materials Research and Technology (IF=6.4), Journal of Polymer Science, and Polymer Composites indicates scholarly excellence 📚🏅. His acceptance as a visiting scholar at the University of Ahlen, Germany , reflects international academic recognition. The consistent acceptance of his work in high-impact journals suggests his research is well-regarded in the scientific community. His research outputs contribute to major areas like nanomaterials, surface modification, and tribological enhancement—critical fields within mechanical and polymer engineering. Cheng’s work has been cited and used as reference for tribological material improvement and molecular simulation techniques, showcasing his growing influence 🌟📖. He is expected to be a strong contender for future research fellowships and innovation awards in engineering science and materials research 🏆🔬.
Conclusion 
Cheng Qian demonstrates outstanding potential and current achievements as a researcher in advanced polymer nanocomposites and material science. His deep understanding of simulation-driven material design, backed by strong experimental work and publication output, positions him as a highly deserving candidate for the Best Researcher Award 🏆. While areas like project leadership and industry engagement can be further developed, his profile is well-rounded, ambitious, and aligned with future-ready scientific innovation.
Publications to Noted
Synergistic Enhancement of Mechanical and Tribological Properties of Nitrile Butadiene Rubber With RD‐Modified GO and CNTs as Antioxidants: Experiments and Molecular Dynamics Simulations
Authors: Cheng Qian; Xiaochao Liu; Wenfu Zeng; Guofeng Zhang; Rui Nie
Year: 2025
Comparative Study of the Tribological Properties of Diamond-Like Carbon and Nitride Coatings Deposited on 40Cr Surfaces
Authors: Rui Nie; Zhuobiao Li; Wenfu Zeng; Cheng Qian; Yunlong Li
Year: 2025
Comparative study on thermal-oxygen aging and tribological properties of carbon nanotubes and graphene sheet reinforced hydrogenated nitrile rubber composite materials
Authors: Qian C.; Wang S.; Li Y.; Nie R.; Song S.
Year: 2024
Design and preparation of sulfur vulcanized polyamide 66 cross-linked nitrile butadiene rubber networked and its application in blending with graphene oxide
Authors: Li X.; Li Y.; Qian C.; Wang S.; Nie R.
Year: 2024
Molecular dynamics investigation on the thermal-oxidative aging and mechanical properties of nitrile butadiene rubber composites with molybdenum disulfide
Authors: Qian C.; Chen J.; Wang S.; Wang M.; Song S.
Year: 2024
Relationship between the aging thermal oxygen and mechanical properties of nitrile butadiene rubber reinforced by RD-loaded carboxylated carbon nanotubes
Authors: Wang M.; Li Y.; Qian C.; Wang S.; Liu D.
Year: 2024
Review on stator rubber of progressive cavity pump for oil extraction,采油螺杆泵定子橡胶研究综述
Authors: Wang S.; Chen Z.; Li Y.; Qian C.; Yang B.
Year: 2024
Molecular dynamics and experimental study of mechanical and tribological properties of graphene‐reinforced nitrile butadiene rubber–phenolic resin composites
Authors: Yunlong Li; Zhiju Chen; Cheng Qian; Shijie Wang; Rui Nie
Year: 2024
A fine-tuning deep residual convolutional neural network for emotion recognition based on frequency-channel matrices representation of one-dimensional electroencephalography
Authors: Chen J.; Cui Y.; Qian C.; He E.
Year: 2023
A Study on the Relationship between the Aging Thermal Oxygen and Mechanical Properties of Nitrile Rubber Reinforced by Rd Load Carboxylated Carbon Nanotubes
Authors: Wang M.; Li Y.; Qian C.; Wang S.; Liu D.
Year: 2023