Long Huang | Materials Process Engineering | Best Academic Researcher Award | 13321

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Dr. Long Huang | Materials Process Engineering | Best Academic Researcher Award

Dr. Long Huang, Nanchang Hangkong University, China

Dr. Huang Long is a Lecturer and Master Supervisor at the School of Aeronautical Manufacturing Engineering, Nanchang Hangkong University, China. He earned his Ph.D. from Northwestern Polytechnical University under Prof. Sun Zhichao. His research focuses on precise plastic forming of difficult-to-deform materials (e.g., titanium alloys), microstructure-property regulation, and residual stress control in aero-engine components. He previously worked at China Aero-Engine South Industry Co., Ltd., contributing to process innovations and high-performance component development. Dr. Huang has published over 30 academic papers and holds five invention patents.

Profile

Early Academic Pursuits ✨

Dr. Huang Long embarked on his academic journey with a strong foundation in materials science and engineering. He earned his Bachelor of Science degree in Material Forming and Control Engineering from East China Jiaotong University in 2010, where he cultivated his interest in advanced manufacturing and materials processing. His passion for materials engineering led him to pursue a Master’s degree at Chongqing University (2011-2014) under the mentorship of Prof. Wang Menghan. During this period, he honed his expertise in materials processing, focusing on innovative techniques for improving mechanical properties and manufacturing efficiency.

Taking his academic endeavors to the next level, Dr. Huang pursued a Ph.D. in Materials Processing Engineering at Northwestern Polytechnical University from 2018 to 2022. Under the guidance of Prof. Sun Zhichao, a National Leading Talent, he specialized in precise plastic forming, microstructure regulation, and heat treatment processes for high-performance aerospace materials. His doctoral research contributed significantly to the field, particularly in the forming and performance enhancement of titanium alloys, a critical material for aerospace applications.

Professional Endeavors 💼

Following the completion of his Master’s degree, Dr. Huang joined China Aero-Engine South Industry Co., Ltd. (AECC South) in 2014 as a Technical Engineer in the Engineering Technology Department. During his tenure at AECC South, he played a crucial role in process innovation, working extensively on novel plastic forming techniques for titanium alloys and superalloys used in aero-engine components. His work focused on improving microstructure-property relationships and optimizing heat treatment methods to enhance material performance and longevity.

After nearly four years of impactful industrial research and development, Dr. Huang transitioned into academia in July 2022. He joined Nanchang Hangkong University as a Lecturer at the School of Aeronautical Manufacturing Engineering, where he continues to engage in cutting-edge research while mentoring the next generation of engineers. As a Master Supervisor, he guides graduate students in advanced manufacturing techniques, ensuring they develop the skills necessary for the evolving aerospace industry.

Contributions and Research Focus 🌟

Dr. Huang’s research interests lie at the intersection of materials science, mechanical engineering, and aerospace technology. His work has significantly advanced the understanding of:

  1. Precise Plastic Forming: Developing innovative forming techniques for complex components made from difficult-to-deform materials like titanium alloys and superalloys.
  2. Microstructure Regulation and Performance Optimization: Investigating the influence of heat treatment and forging processes on material properties to enhance mechanical performance.
  3. Superplasticity in Lightweight Aerospace Alloys: Exploring how superplastic forming techniques can be leveraged for efficient manufacturing.
  4. Residual Stress and Deformation Control: Modeling and simulating the behavior of aero-engine components during heat treatment to minimize defects and residual stresses.

Dr. Huang has led multiple research projects, including those funded by the Jiangxi Provincial Natural Science Foundation, the Science and Technology on Light Alloy Processing Laboratory, and Nanchang Hangkong University. His work continues to push the boundaries of materials engineering, making significant strides in aerospace manufacturing.

Accolades and Recognition 🏆

Dr. Huang’s contributions to materials processing and aerospace engineering have earned him significant recognition in the scientific community. He has published over 30 peer-reviewed academic papers in reputable journals, showcasing his expertise in materials engineering. Additionally, he holds five authorized invention patents related to advanced forming techniques and heat treatment processes. His patents have practical applications in the aerospace industry, contributing to more efficient and cost-effective manufacturing processes.

Beyond publications and patents, Dr. Huang’s research has been acknowledged through prestigious funding grants and industry collaborations, cementing his reputation as a leading researcher in his field.

Publication Top Notes

Enhancing the Robustness of Rib-Groove Filling and Strain Homogeneity in the Isothermal Forging of Titanium Alloy Multi-Rib Components

Author: T., Ding, Tong, K., Wei, Ke, Y., Hou, Yong, L., Huang, Long, M., Lee, Myoung-gyu

Journal: Chinese Journal of Mechanical Engineering

Year: 2024

Research on constitutive model of 9310 steel based on physical parameters and BP neural network

Author: Y., Wang, Yuhang, S., Luo, Shuanmou, X., Dong, Xiangjuan, Z., Tu, Zeli, J., Li, Jiajun

Journal: Suxing Gongcheng Xuebao/Journal of Plasticity Engineering, 

Year: 2024

Yuxiao Zhao | Optoelectronic polymer materials | Best Researcher Award | 13174

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Mr. Yuxiao Zhao | Optoelectronic polymer materials | Best Researcher Award 

Mr. Yuxiao Zhao, Tianjin University of Science and Technology, China

Mr. Yuxiao Zhao is a distinguished researcher at Tianjin University of Science and Technology in China. His work primarily focuses on the application of advanced materials and technologies in various engineering disciplines. He has contributed significantly to research in materials science, particularly in areas related to material processing and innovation. Mr. Zhao is known for his dedication to both academic research and industrial applications, bridging the gap between theory and practice. His contributions to the field have made a substantial impact on improving industrial processes and material sustainability.

Profile

Scopus

Early Academic Pursuits 🎓

Yuxiao Zhao embarked on his academic journey with a strong foundation in materials science, culminating in a Master’s degree. His academic interests initially revolved around advanced materials, especially focusing on optoelectronic polymer materials. During his studies, Zhao’s passion for innovation and problem-solving led him to explore the preparation and application development of these materials, setting the stage for his future research career. As a master’s student, he made significant contributions to two peer-reviewed SCI (Science Citation Index) papers, which showcased his potential and commitment to advancing the field. These early academic achievements laid the groundwork for Zhao’s further exploration into the world of polymers and their real-world applications.

Professional Endeavors 💼

After completing his Master’s degree, Zhao continued his professional journey with a focus on the preparation and application development of optoelectronic polymer materials. His expertise lies in the creation of innovative materials that exhibit enhanced properties, such as improved thermal insulation, flame retardance, and antistatic capabilities. Zhao’s work is at the cutting edge of developing polymers that can be used in high-tech industries, including aerospace, national defense, and microelectronics. These materials are essential for a variety of high-performance applications, and his contributions have made a notable impact on how these materials can be optimized for use in critical sectors.

Contributions and Research Focus 🔬

Yuxiao Zhao’s research focus centers on the development of optoelectronic polymer materials with enhanced properties, which can play a pivotal role in various high-tech applications. One of his most significant contributions is the development of a novel diamine monomer that enhances the properties of polyimide materials. This monomer has led to improvements in antistatic performance, moisture absorption, flame retardancy, and thermal insulation properties, making it a valuable addition to materials used in the aerospace, national defense, and microelectronics industries.

Accolades and Recognition 🏆

Despite his relatively early career, Yuxiao Zhao has already garnered recognition for his groundbreaking work in materials science. His contributions to the development of advanced polymer materials have earned him the respect of both his peers and mentors. The publication of his research in SCI-indexed journals, such as European Polymer Journal and Journal of Environmental Chemical Engineering, is a testament to the relevance and quality of his work.

While Zhao has yet to receive a major industry award, his research has been recognized for its innovative approach and potential for broad application in high-tech industries. This recognition in the form of published works, industry collaborations, and contributions to research projects is a solid indicator of Zhao’s future success and growth in the scientific community.

Impact and Influence 🌍

The impact of Zhao’s work extends beyond the laboratory, influencing industries that rely on high-performance materials for critical applications. His contributions to the development of optoelectronic polymers have direct implications for sectors such as aerospace, defense, and electronics. By improving the properties of polyimide materials and advancing the capabilities of electrospun membranes, Zhao is helping to propel technological advancements in these fields.

In addition to the technological impact, Zhao’s research has also contributed to a better understanding of the fundamental science behind polymer materials. This knowledge is essential for further advancements and for solving complex problems in material science. His innovative work is fostering a new wave of research that could lead to sustainable and efficient solutions for global challenges, including energy efficiency and environmental protection.

Publication Top Notes

Near-field electrospinning of PTFE/ZnO membrane with regular pore geometry and its photocatalytic performance

Author: Cheng, J., Zhao, Y., Feng, X., Guo, M., Cheng, B.

Journal: Environmental Chemical Engineering

Year: 2024

Progress of Micro/Nano-Porous Low-Dielectric Polyimide Films

Author: Zhao, Y., Feng, X., Feng, C., Yu, X., Guo, M.

Journal: Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering

Year: 2023

Preparation of Colorless Transparent Polyimide Films with High Comprehensive Properties

Author: Feng, X., Wang, Y.-H., Zhao, Y.-X., Cui, J., Guo, M.-J.

Journal: Acta Polymerica Sinica

Year: 2023,