Xuezhi Shi | Marine ecological restoration | Best Researcher Award

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Dr Xuezhi Shi | Marine ecological restoration | Best Researcher Award 

zhejiang ocean university, China

Xuezhi Shi, born in 1989, is a dedicated lecturer and master tutor at the Marine Engineering Equipment College of Zhejiang Ocean University, China. With a strong academic background and extensive research experience, he specializes in additive manufacturing, particularly in the fields of 3D printing and advanced materials. His work focuses on improving the mechanical properties and structural integrity of materials like Ti-6Al-4V and Ti-47Al-2Cr-2Nb alloys. Dr. Shi has published numerous high-impact research papers, contributing significantly to the understanding of crack formation, surface quality, and defect behavior in additive manufacturing processes. His innovative approaches, such as hybrid fabrication techniques and directed energy deposition, have garnered attention in the scientific community. Dr. Shi is also an active member of the academic community, collaborating with international researchers and mentoring students. His contributions continue to push the boundaries of marine engineering and materials science.

Professional Profile

Orcid

Scopus

Education 🎓

Xuezhi Shi’s academic journey reflects his commitment to mechanical engineering and advanced manufacturing. He earned his PhD in Mechanical Engineering from Beijing Institute of Technology (2013–2017), where he focused on additive manufacturing and material science. Prior to this, he completed his Master’s degree in Mechanical Engineering at Beijing Technology and Business University (2011–2013), specializing in advanced manufacturing techniques. His foundational education includes a Bachelor’s degree in Mechanical Design, Manufacturing, and Automation from Beijing Institute of Petrochemical Technology (2007–2011). Throughout his academic career, Dr. Shi demonstrated a keen interest in optimizing manufacturing processes, particularly in selective laser melting and wire arc additive manufacturing. His research during his PhD laid the groundwork for his current work in marine engineering and 3D printing. Dr. Shi’s educational background has equipped him with the skills to innovate and lead in the field of additive manufacturing.

Experience 💼

Since August 2017, Xuezhi Shi has been a lecturer and master tutor at the Marine Engineering Equipment College, Zhejiang Ocean University. In this role, he has been instrumental in advancing research in additive manufacturing, particularly for marine applications. His work involves exploring the mechanical properties of materials like Ti-6Al-4V and Ti-47Al-2Cr-2Nb, with a focus on eliminating defects and enhancing performance. Dr. Shi has also contributed to the development of hybrid fabrication techniques, combining selective laser melting and wire arc additive manufacturing. His research has practical implications for industries such as aerospace, marine engineering, and materials science. Additionally, he mentors graduate students, guiding them in cutting-edge research projects. Dr. Shi’s expertise in additive manufacturing has led to collaborations with international researchers, further solidifying his reputation as a leader in the field. His work continues to bridge the gap between theoretical research and industrial applications.

Awards and Honors 🏆

While specific awards and honors for Xuezhi Shi are not explicitly mentioned in the provided information, his contributions to additive manufacturing and materials science are highly regarded. His research publications in prestigious journals such as Journal of Materials Research and TechnologyOptics and Laser Technology, and Materials Science and Engineering A highlight his impactful work. Dr. Shi’s innovative approaches, such as hybrid fabrication techniques and directed energy deposition, have likely earned him recognition within the academic and industrial communities. His collaborations with international researchers and consistent publication record demonstrate his standing as a respected figure in the field. Dr. Shi’s work on crack elimination, surface quality improvement, and defect behavior in additive manufacturing processes has set new benchmarks in materials science. His dedication to advancing marine engineering through additive manufacturing continues to inspire students and researchers alike.

Research Focus  🔬

Xuezhi Shi’s research primarily focuses on additive manufacturing (3D printing), with an emphasis on improving the mechanical properties and structural integrity of advanced materials. His work explores the use of selective laser melting (SLM) and wire arc additive manufacturing (WAAM) for materials like Ti-6Al-4V and Ti-47Al-2Cr-2Nb. Key areas of interest include crack formation mechanismssurface quality optimization, and defect behavior in additive manufacturing processes. Dr. Shi also investigates hybrid fabrication techniques, combining SLM and WAAM to enhance material performance. His research extends to the influence of external factors, such as ship-based vibrations, on additive manufacturing outcomes. Additionally, he explores the use of novel additives, like 316L-sodium silicate, to improve material properties. Dr. Shi’s work has significant implications for industries such as aerospace, marine engineering, and materials science, where additive manufacturing is increasingly used for complex and high-performance components.

Publication Top Notes 📚

  1. Utilization of machine-made sand waste in 3D-printed ecological concrete for artificial reefs 🌊
  2. Enhancing mechanical properties of Ti–6Al–4V through directed energy deposition-arc by coating with 316L-sodium silicate additive ⚙️
  3. Eliminating cracks in Ti-47Al-2Cr-2Nb/Ti-6Al-4V micro-laminated composites fabricated by dual-material laser powder bed fusion 🔧
  4. Influence of Ship-based Vibration on Characteristics of Arc and Droplet and Morphology in Wire Arc Additive Manufacturing 🚤
  5. Effect of substrate preheating, remelting, in-situ presintering on the formation of cracking of Ti-47Al-2Cr-2Nb fabricated by Selective Laser Melting 🔥
  6. Effect of high layer thickness on surface quality and defect behavior of Ti-6Al-4V fabricated by selective laser melting 🖨️
  7. The crack and pore formation mechanism of Ti-47Al-2Cr-2Nb alloy fabricated by selective laser melting 🧪
  8. Beam Diameter Dependence of Performance in Thick-Layer and High-Power Selective Laser Melting of Ti-6Al-4V 💡
  9. Selective laser melting-wire arc additive manufacturing hybrid fabrication of Ti-6Al-4V alloy: microstructure and mechanical properties 🔬
  10. Parameter optimization for Ti-47Al-2Cr-2Nb in selective laser melting based on geometric characteristics of single scan tracks 📐

Conclusion 🌟

Xuezhi Shi is a prominent figure in the field of additive manufacturing, with a strong focus on improving the mechanical properties and structural integrity of advanced materials. His research on selective laser melting, wire arc additive manufacturing, and hybrid fabrication techniques has significantly contributed to the understanding of crack formation, surface quality, and defect behavior. Dr. Shi’s work has practical applications in industries such as aerospace, marine engineering, and materials science. His dedication to mentoring students and collaborating with international researchers further underscores his commitment to advancing the field. Through his innovative approaches and impactful publications, Dr. Shi continues to push the boundaries of additive manufacturing, making significant strides in both theoretical research and industrial applications.

Xiangqian Bian | Floating Breakwater | Best Researcher Award

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Dr Xiangqian Bian | Floating Breakwater | Best Researcher Award

Lecturer, Jiangsu Maritime Institute, China

Xiangqian Bian is a prominent researcher in the field of naval architecture and hydrodynamics, currently affiliated with Jiangsu Maritime Institute in Nanjing, China. With a strong academic background and extensive experience in experimental and numerical studies, he focuses on the design and performance of floating breakwaters and marine structures. Bian is dedicated to advancing maritime engineering through innovative research and collaboration. His contributions to the field are recognized internationally, making him a valuable asset to academic and industry communities.

Profile

ORCID

Strengths for the Award 

Xiangqian Bian demonstrates exceptional expertise in naval architecture and hydrodynamics, particularly in the study of floating breakwaters. His prolific output, with multiple publications in high-impact journals, highlights his commitment to advancing marine engineering. Bian’s research integrates both experimental and numerical approaches, showcasing his versatility and depth of knowledge. His collaborative work with recognized researchers adds credibility and fosters innovative solutions in the field. Furthermore, his focus on sustainable and efficient designs positions his research as vital for coastal protection and marine infrastructure development.

Areas for Improvement 

While Bian’s research is commendable, there are areas where further growth could enhance his impact. Increasing interdisciplinary collaborations could lead to broader applications of his findings in related fields, such as environmental engineering and renewable energy. Additionally, engaging more with industry partners could facilitate the practical implementation of his research outcomes, bridging the gap between academia and real-world applications. Expanding his outreach through conferences and public speaking may also elevate his visibility and influence within the academic community.

Education 

Xiangqian Bian completed his education with a focus on naval architecture and marine engineering. He earned his undergraduate degree in naval architecture from a reputable university in China, followed by advanced studies that deepened his expertise in hydrodynamic analysis and structural design. His academic journey has equipped him with the theoretical knowledge and practical skills essential for tackling complex challenges in marine engineering.

Experience 

Xiangqian Bian has a wealth of experience in both academic and research settings. Currently, he serves as a faculty member at Jiangsu Maritime Institute, where he engages in teaching and guiding research. His previous roles have included significant research projects focused on floating structures and their hydrodynamic characteristics, collaborating with interdisciplinary teams to publish numerous articles in leading journals. His hands-on experience complements his theoretical knowledge, making him a key contributor to advancements in the field.

Awards and Honors 

Throughout his career, Xiangqian Bian has received several accolades for his contributions to marine engineering and hydrodynamics. His research has been recognized at various international conferences, earning him awards for best papers and innovation in engineering solutions. Bian’s work has also been cited extensively, underscoring his impact on the field and his recognition among peers and institutions.

Research Focus 

Xiangqian Bian’s research primarily centers on the hydrodynamic performance of floating breakwaters and related marine structures. His work involves both experimental and numerical methodologies to investigate the effects of design parameters on performance in diverse marine environments. By exploring innovative configurations and materials, Bian aims to enhance the efficiency and sustainability of marine structures, contributing to advancements in coastal protection and offshore engineering.

Publication Top Notes

  • 3D experimental investigation of floating breakwater with symmetrical openings and wing structures
  • Numerical Study on the Effect of Gap Diffraction on the Hydrodynamic Performance of A Floating Breakwater
  • Numerical study on the hydrodynamic performance of floating breakwaters with complex configurations
  • Experimental study on hydrodynamic characteristics of a new type floating breakwater with opening pass and wing structure
  • Hydrodynamic Performance of a Multi-Module Three-Cylinder Floating Breakwater System under the Influence of Reefs: A 3D Experimental Study
  • Experimental study of hydrodynamic performance for double-row rectangular floating breakwaters with porous plates

Conclusion 

In summary, Xiangqian Bian’s strong track record in marine engineering, demonstrated through numerous impactful publications and innovative research, makes him a strong candidate for the Best Researcher Award. His contributions significantly advance our understanding of floating structures and their hydrodynamic performance, addressing crucial challenges in maritime environments. With strategic improvements in collaboration and outreach, Bian is poised to further enhance his contributions to the field and inspire future research endeavors.