Guojin Sun | Manufacturing| Best Researcher Award

Assoc Prof Dr.Guojin Sun | Manufacturing| Best Researcher Award

Assoc Prof Dr , Guojin Sun, Qinghai Institute of Technology, China

Assoc. Prof. Dr. Guojin Sun is a distinguished scholar at the Qinghai Institute of Technology, China. With a strong focus on his research area, Dr. Sun has contributed significantly to advancing his field. He holds an esteemed position as an Associate Professor, where he is actively involved in both teaching and research. His work has been published in numerous peer-reviewed journals, and he has earned recognition for his innovative approaches and impactful studies. Dr. Sun continues to inspire and mentor students while making valuable contributions to his academic community.

Summary:

Dr. Guojin Sun is a highly accomplished researcher with a proven record of successful project leadership in materials science and engineering. His contributions have significantly impacted both academic research and industrial applications, particularly in the optimization of material properties and the development of advanced composite materials. His work has led to practical solutions with considerable economic benefits, reflecting his ability to bridge the gap between academic research and industry needs.

Professional Profiles:

Google Scholar

🎓 Education :

Dr. Guojin Sun earned his Doctor of Philosophy degree in 2013 from Beihang University, also known as Beijing University of Aeronautics and Astronautics, where he focused on advanced materials science and engineering. Following his Ph.D., he undertook postdoctoral research at Zhejiang University, completing his fellowship in 2015. His education laid a strong foundation in materials science, which has since propelled his career in both academia and industry.

💼 Professional Experience:

Dr. Sun is currently an Associate Professor in the Department of Materials Science and Engineering at Qinghai University of Technology. He has also served as a Postdoctoral Fellow at Zhejiang University. Throughout his career, Dr. Sun has amassed extensive experience in the optimization of material properties, failure analysis, and the development of advanced composite materials. His work has not only made significant academic contributions but has also resulted in practical solutions for industrial challenges, particularly in the enhancement of materials used in heavy machinery and manufacturing.

🛠️ Skills and Expertise:

  • Materials Optimization: Expertise in improving material properties to enhance performance and longevity.
  • Failure Analysis: Skilled in diagnosing and solving material failures in complex systems.
  • Advanced Composite Materials: Proficient in developing and applying composite materials for industrial use.,Project Management: Experienced in leading both provincial-level and industry-funded research projects to successful completion.,Technical Writing: Strong ability to communicate complex technical concepts through academic publications and patent documentation.

🏆 Awards and Recognitions:

Dr. Sun has been recognized for his contributions to both academia and industry. He has led and successfully completed several high-profile projects, earning accolades from industry experts. His work on optimizing heat treatment for TBM cutter rings and increasing the service life of large ball mills has received provincial-level commendations. Additionally, his contributions to industry technology projects have resulted in substantial commercial success, including generating annual sales exceeding $50 million and facilitating global exports.

🔬 Research Focus:

Dr. Sun’s research is centered on the optimization of material properties, failure analysis, and the development of advanced composite materials. His key projects include the enhancement of steel performance for tunnel boring machine (TBM) cutter rings and the improvement of torsion bars for pneumatic clutches. He has also focused on developing predictive models for tempering behavior in low-carbon bainitic steel and creating specialized coatings for lost foam casting. These research initiatives have significantly impacted both the academic field and industrial applications, leading to advancements in material processing and manufacturing technologies.

Conclusion:

Dr. Guojin Sun is a strong candidate for the Best Researcher Award, given his substantial contributions to materials science and engineering. His research has not only advanced academic understanding but also delivered tangible benefits to industry. To enhance his candidacy further, Dr. Sun could focus on increasing his international recognition and expanding the diversity of his research areas. Nevertheless, his current achievements and the impact of his work position him as a deserving contender for this prestigious award.

Publications :

  1. Guojin Sun*; Linqian Xu; Qi Wang. (2024). “Impact of Carbon Fiber Content and Length on the Rheological Properties and Coating Performance for Lost Foam Casting.” Coatings, 14, 1061.

 

  1. Guojin Sun*; Qi Wang. (2024). “Optimizing Tempering Parameters to Enhance Precipitation Behavior and Impact Toughness in High-Nickel Steel.” Metals, 14, 898.

 

  1. Guojin Sun*; Qi Wang; Shiyu Luan. (2024). “Influence of Mixing and Standing Times on the Rheological Properties and Performance of Coatings for Lost Foam Shell Casting.” Coatings, 14, 954.

 

  1. Guojin Sun*; Qi Wang. (2024). “Development of Predictive Models for Tempering Behavior in Low-Carbon Bainitic Steel Using Integrated Tempering Parameters.” Metals, 14, 881.

 

  1. Guojin Sun*; Wang Qi; Hou Miaoyu. (2022). “Discussion of Ceramic Bar Reinforced TWIP Steel Composite Structure.” Science and Engineering of Composite Materials, 29, 481-487.

 

  1. Guojin Sun*; Shilian Hu; Yongliang Gao; Wei Chen. (2017). “Influence of Direct Annealing Heat Treatment on the Mechanical Properties of As-Casting TWIP Steels.” Journal of Materials Engineering and Performance, 26, 1981-1985.

 

 

Dr . Luis Cedeño-Viveros | Manufacturing processes | Best Researcher Award

Dr . Luis Cedeño-Viveros | Manufacturing processes | Best Researcher Award

Dr . Luis Cedeño-Viveros ,Tecnológico de Monterrey,Ecuador

Dr. Luis Cedeño-Viveros is a distinguished academic and researcher at Tecnológico de Monterrey in Ecuador. With a profound expertise in his field, Dr. Cedeño-Viveros has contributed significantly to the academic community through his research and publications. He is known for his innovative approaches and dedication to advancing knowledge. Dr. Cedeño-Viveros has a robust background in engineering, reflected in his numerous scholarly articles and conference presentations. His commitment to education and research excellence makes him a valuable asset to Tecnológico de Monterrey and the broader academic community.

Professional Profiles:

Scopus

Education :

Ph.D. in Advanced Manufacturing, Tecnológico de Monterrey, Mexico
M.Sc. in Mechanical Engineering, Tecnológico de Monterrey, Mexico
B.Sc. in Mechanical Engineering, Universidad Católica del Ecuador, Quito, Ecuador

Work Experience:

Postdoctoral Researcher, Institute of Advanced Materials for Sustainable Manufacturing – Tecnológico de Monterrey (May 2022 – May 2024),Led research on innovative sustainable additive manufacturing methods.,Conducted design and topology optimization of LPBF preforms.,Collaborated on developing innovative stents for magnesium and NiTi alloys.,Delivered guest lectures and served as a co-advisor for master’s theses.,Managed research activities including securing funding and acquiring materials and equipment.,Part-time physics lecturer in the School of Engineering and Sciences,Advanced Manufacturing Consultant, HERA Diagnostics (Nov 2021 – May 2023),Optimized design for the fabrication of medical devices.,Conducted design and preliminary laboratory evaluations for regulatory clearance.,Graduate Research Assistant, Advanced Manufacturing Research Group, Centro de Innovación en Diseño y Tecnología (CIDyT) – Tecnológico de Monterrey (Aug 2017 – Dec 2021),Specialized in laser micro-welding and micro-cutting of metallic alloys.,Conducted benchmarking research for innovative medical implants.,Trained personnel and graduate students in advanced laser techniques.,Internship Trainee, BOCAR Group, Toluca-Mexico (Sep 2014 – Dec 2014),Developed FEM simulations for designing casting molds for aluminum auto parts.

Skills :

  • Technical: Laser micro-welding, 3D printing, FEM simulations, CAD/CAM software (NX Unigraphics, Altair platforms, Fusion 360), MATLAB, Wolfram programming languages.
  • Languages: Spanish (native), English (IELTS 8, C1), German (Goethe Institute A1).
  • Research and Development: Medical device innovation, sustainable manufacturing, laser fabrication processes, topology optimization, tissue engineering.

Awards:

  • Candidate level at the National Research System (CONACYT, Mexico), Jan 2023 – Dec 2026.
  • Member of the Optica Society, Early Career Member, July 2024 – July 2027.
  • First Place in ASME Old Guard Technical Web Page Design Competition, Salamanca, México, 2013.
  • President of the Mechanical Engineers Society of Tecnológico de Monterrey, Toluca, 2013—2014

Research Focus:

  • Medical Devices: Development of cutting-edge medical devices using fiber laser technologies, innovative cancer screening methods based on optical and electrical spectroscopy.
  • Laser Manufacturing: Laser Powder Bed Fusion (LPBF) techniques, laser micro-welding of magnesium alloys, stainless steels, and NiTi alloys.
  • Sustainable Manufacturing: Development of sustainable additive manufacturing methods, including Joining Stacking Laser Micro-Spot Welding (JS-LMSW).

Patents:

  • Method for obtaining personalized scaffolds for tissue regeneration, Application submitted, April 2021.
  • Energy collector system applicable to combustion engines, Patent granted, June 2016.

Publications :

  1. A Novel Mathematical Model for Predicting a Sustainable Selective Laser Melting and Controlled Densification
    International Journal of Sustainable Energy, March 2024.
    DOI: 10.1080/19397038.2024.2327386.
  2. Numerical Analysis of Static and Dynamic Heat Source Model Approaches in Laser Micro-Spot Welding
    International Journal of Advanced Manufacturing Technology, April 2024.
    DOI: 10.1007/s00170-024-13645-1.
  3. A Novel Method for the Fabrication of Tubular WE43 Magnesium Scaffold Based on Laser Micro-Spot Welding
    Engineering Science and Technology, an International Journal, January 2022.
    DOI: 10.1016/j.jestch.2022.101096.
  4. Characterization of Porous Scaffolds Fabricated by Joining Stacking Based Laser Micro-Spot Welding (JS-LMSW) for Tissue Engineering Applications
    Materials, December 2021.
    DOI: 10.3390/ma15010099.
  5. Influence of Process Parameters for Sheet Lamination Based on Laser Micro-Spot Welding of Austenitic Stainless Steel Sheets for Bone Tissue Applications
    International Journal of Advanced Manufacturing Technology, April 2021.
    DOI: 10.1007/s00170-021-07113-3.

Conference Proceedings

  1. A Process Chain Study for the Manufacturing of Nitinol Stents
    Presented on June 11, 2024, at the CIRP BioManufacturing 2024, Dresden, Germany. In press.
  2. A Novel Additive Manufacturing Method for the Fabrication of Porous Structures: Tube Stack Layering (TSL)
    Presented online on October 20, 2022, at the International Conference on Design for 3D Printing 2022. In press.
  3. Laser Micro-Welding of AZ92A Magnesium Wires Using a Fiber-Laser: A Preliminary Study
    CIRP BioManufacturing 2019.
    DOI: 10.1016/j.procir.2019.12.002.
  4. Laser Micro-Spot Welding of AISI 302 Stainless Steel Sheets
    SPIE Photonics West 2018.
    DOI: 10.1117/12.2290003.
  5. An Immersive 3D Virtual Learning Environment for Analyzing the Atomic Structure of MIMS Relevant Materials
    VARI 2015.
    DOI: 10.1016/j.procs.2015.12.265.