Dianzheng Wang | Additive Manufacturing | Best Researcher Award

Dr. Dianzheng Wang | Additive Manufacturing| Best Researcher Award

International Presentation Experience:
  •  His acceptance to present at the 1st Asia Pacific International Conference on Additive Manufacturing in Melbourne demonstrates his recognition in the global research community and ability to communicate complex ideas effectively.
Dr. Dianzheng Wang , Institute of Engineering Thermophysics, Chinese Academy of Sciences , China

Profile

Scopus

🌱EARLY ACADEMIC PURSUITS

  • Dianzheng Wang completed his Bachelor’s degree in Materials Science and Engineering at Northwestern Polytechnical University in Xi’an City, China, from September 2009 to July 2013. He graduated with an impressive GPA of 89.3/100, ranking 1st out of 26 students. His strong foundation in materials science paved the way for his advanced studies.

💼 PROFESSIONAL ENDEAVORS

  • Dianzheng pursued a Ph.D. at Tsinghua University in Beijing, focusing on the Selective Laser Melting (SLM) of Tungsten and Its Alloys from September 2013 to July 2018. His doctoral research explored innovative techniques in additive manufacturing, particularly in the context of tungsten materials, showcasing his dedication to advancing this field.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS 

  • During his Ph.D., Dianzheng made significant contributions through his research on:
    • Balling Mechanism in Selective Laser Melting of Tungsten: Investigating the behaviors that lead to defects during the SLM process.
    • Fabricating Dense Pure Tungsten and Molybdenum from Spherical Powders by SLM: Developing methods to achieve high-density structures through advanced additive manufacturing techniques.
    • Plasma Spheroidization of Polyhedral Tungsten Powders: Innovating powder processing techniques to enhance the quality of materials used in SLM.
    • Crack Growth Behaviors and Reduction in Selective Laser Melted Tungsten: Analyzing failure mechanisms and developing strategies to mitigate them.

📚 ACADEMIC CITES 

  • Dianzheng has presented his research at prominent conferences, including the 1st Asia Pacific International Conference on Additive Manufacturing in Melbourne, Australia, in December 2017, where he was invited to give an oral presentation. This highlights his recognition in the academic community and the relevance of his work.

🌍 Impact and Influence

  • Dianzheng’s work has potential implications in various industries, including aerospace, automotive, and energy, where high-performance materials are essential. His research aims to enhance the mechanical properties and manufacturing processes of tungsten-based materials, thereby contributing to more robust applications.

🌟 Legacy and Future Contributions

  • As a researcher in materials science, Dianzheng Wang’s work on selective laser melting of tungsten positions him as a key contributor to the development of advanced manufacturing processes. His ongoing research efforts will likely lead to innovations that improve material performance and expand the applications of additive manufacturing technology.

📄Publications

  • Robust visual-based method and new datasets for ego-lane index estimation in urban environment
    Authors: Wang, D., Liang, D., Li, S.
    Journal: Machine Vision and Applications, 2024, 35(5), 112
  • Blistering and retention behavior of laser powder bed fused tungsten alloys under hydrogen plasma irradiation
    Authors: Li, K., Du, B., Yu, L., Liu, W., Chen, W.
    Journal: Journal of Nuclear Materials, 2024, 595, 155049
  • Additive Materialization: Promoting Customized Design in Ceramic Components with Integrated Structure & Performance via Additive Manufacturing
    Authors: Song, L., Wang, D., Zhao, R., Ma, J., Shen, Z.
    Journal: Kuei Suan Jen Hsueh Pao/Journal of the Chinese Ceramic Society, 2021, 49(5), pp. 819–828
  • Crack suppression in additively manufactured tungsten by introducing secondary-phase nanoparticles into the matrix
    Authors: Li, K., Wang, D., Xing, L., Liu, W., Shen, Z.
    Journal: International Journal of Refractory Metals and Hard Materials, 2019, 79, pp. 158–163
  • Cracking in laser additively manufactured W: Initiation mechanism and a suppression approach by alloying
    Authors: Wang, D., Wang, Z., Li, K., Liu, W., Shen, Z.
    Journal: Materials and Design, 2019, 162, pp. 384–393