Lu Wang | Laser Melting | Innovative Research Award

Published on by Metallurgical Engineering

Innovative Research Award

Lu Wang
City University of Hong Kong, Hong Kong

Lu Wang
Affiliation City University of Hong Kong
Country Hong Kong
Scopus ID 57219357752
Documents 35
Citations 1,520
h-index 19
Subject Area Laser Melting
Event Metallurgical Engineering Awards
ORCID 0000-0001-5055-5539

Lu Wang of City University of Hong Kong has contributed to the development of predictive frameworks for laser-based manufacturing processes, including evaporation dynamics, keyhole pore formation, and multi-scale modeling approaches.[1] The Innovative Research Award recognizes notable scholarly contributions in the field of laser melting and metal additive manufacturing, with particular emphasis on computational modeling, thermodynamic simulations, and advanced manufacturing systems. The research portfolio reflects interdisciplinary engagement across manufacturing science, computational mechanics, and material processing technologies.[2]

Abstract

Lu Wang’s research activities in laser melting and additive manufacturing technologies. The profile emphasizes scientific contributions to computational modeling, thermoelectric magnetohydrodynamic systems, multi-phase flow simulations, and evaporation-induced material behavior in laser processing environments. The body of work demonstrates engagement with advanced numerical simulations and manufacturing optimization methodologies relevant to modern metallurgical engineering.[3] Publications in high-impact journals further indicate ongoing participation in internationally recognized research initiatives focused on additive manufacturing science and engineering applications.[4]

Keywords

Laser Melting, Additive Manufacturing, Metal Processing, Thermodynamic Modeling, Computational Materials Science, Multi-scale Simulation, Powder Bed Fusion, Metallurgical Engineering, Keyhole Dynamics, Manufacturing Systems

Introduction

Additive manufacturing technologies have become increasingly important in contemporary metallurgical engineering due to their ability to fabricate complex geometries with enhanced material efficiency and process control. Within this field, laser melting and powder bed fusion processes require advanced understanding of thermal behavior, fluid flow, and material interactions at multiple scales.[2] Lu Wang’s research activities have focused on addressing scientific challenges associated with metal additive manufacturing systems.

Research Profile

Lu Wang currently serves as Assistant Professor in the Department of Mechanical Engineering at City University of Hong Kong. Prior academic appointments included a postdoctoral fellowship at the National University of Singapore. Academic training encompasses doctoral studies in additive manufacturing and computational modeling, supported by engineering education in ship and marine structure design.[1]

These activities have been associated with major funding initiatives and interdisciplinary engineering programs focused on next-generation manufacturing technologies.[3]

Research Contributions

Research contributions attributed to Lu Wang include the development of computational frameworks for understanding evaporation behavior and keyhole formation during laser-based additive manufacturing processes. The studies provide insights into thermal-fluid interactions and process stability under high-energy manufacturing conditions.[2]

Publications

Representative publications demonstrate sustained scholarly engagement in additive manufacturing science and computational materials engineering. Research articles have appeared in journals including Advanced Functional Materials, npj Computational Materials, Physical Review Applied, and International Journal of Machine Tools and Manufacture.[2]

  1. Wang, L., Guo, Z., Peng, G., Wu, S., Zhang, Y., & Yan, W. Evaporation-Induced Composition Evolution in Metal Additive Manufacturing. Advanced Functional Materials, 2024.
  2. Wang, L., Zhang, Y., Chia, H. Y., & Yan, W. Mechanism of keyhole pore formation in metal additive manufacturing. npj Computational Materials, 2022.

Research Impact

The documented citation record and publication output indicate measurable research influence within the fields of additive manufacturing and metallurgical engineering. Several publications have been recognized through citation performance metrics, including designation as highly cited research articles within engineering and applied physics disciplines.[2]

Award Suitability

The Innovative Research Award is intended to recognize scholarly achievement, originality, and measurable contribution to metallurgical engineering research. Lu Wang’s research profile demonstrates alignment with these objectives through sustained publication activity, interdisciplinary engineering investigations, and participation in internationally recognized additive manufacturing research programs.[1]

Conclusion

Lu Wang’s academic profile reflects active contributions to additive manufacturing science and metallurgical engineering through research involving laser melting systems, computational modeling, and process optimization methodologies. The publication record, citation metrics, and participation in collaborative research initiatives collectively support recognition within the field of advanced manufacturing engineering. The Innovative Research Award therefore represents an appropriate acknowledgment of ongoing scholarly engagement and scientific contribution in the domain of laser-based manufacturing technologies.

References

  1. Wang, L., & Yan, W. (2023). Multi-phase flow simulation of powder streaming in laser-based directed energy deposition.
    https://www.sciencedirect.com/science/article/pii/S0017931023003927
  2. Wang, L., Zhang, Y., Chia, H. Y., & Yan, W. (2022). Mechanism of keyhole pore formation in metal additive manufacturing. npj Computational Materials, 8(1), 22.
    https://www.nature.com/articles/s41524-022-00699-6
  3. Wang, L., Guo, Q., Chen, L., & Yan, W. (2023). In-situ experimental and high-fidelity modelling tools to advance understanding of metal additive manufacturing. International Journal of Machine Tools and Manufacture.
    https://doi.org/10.1016/j.ijmachtools.2023.104077
  4. Wang, L., & Yan, W. (2021). Thermoelectric magnetohydrodynamic model for laser-based metal additive manufacturing. Physical Review Applied, 15(6), 064051.
    https://doi.org/10.1103/PhysRevApplied.15.064051
  5. Wang, L., Guo, Z., Peng, G., Wu, S., Zhang, Y., & Yan, W. (2024). Evaporation-Induced Composition Evolution in Metal Additive Manufacturing. Advanced Functional Materials.
    https://doi.org/10.1002/adfm.202412071

Abdelhadi Kassiba | Photoactive Nanomaterials | Innovative Research Award

Published on by Metallurgical Engineering

Prof. Dr. Abdelhadi Kassiba | Photoactive Nanomaterials | Innovative Research Award

Professor at IMMM, Institut des Molécules et Matériaux du Mans | France

Prof. Dr. AbdelHadi Kassiba is a leading innovator in condensed matter physics and functional nanomaterials, with pioneering contributions to wide bandgap semiconductors, nanocomposites, and photoactive oxides. His research combines advanced spectroscopic techniques with materials physics to uncover structure–property relationships critical for nonlinear optics, electro-optics, environmental remediation, and renewable energy applications. The originality and interdisciplinary nature of his work have resulted in strong global impact and scientific recognition. His Scopus profile reflects this influence, with 139 peer-reviewed publications, 2,766 citations, and an h-index of 29, demonstrating sustained research productivity, innovation, and long-term scholarly impact suitable for the Innovative Research Award.

Citation Metrics

3000

2000

500

100

0

Citations
2766

Documents
139

h-index
29

Featured Publications

Muhammad Mubeen | Anti-Corrosion | Young Scientist Award

Published on by Metallurgical Engineering

Dr. Muhammad Mubeen | Anti-Corrosion | Young Scientist Award

University of Science and Technology of China | China

Dr. Muhammad Mubeen is a highly motivated and accomplished researcher in the field of materials science and engineering, currently pursuing his Ph.D. at the University of Science and Technology of China, following an M.S. in Materials Science and Engineering from Beijing University of Chemical Technology and a B.Sc. in Metallurgy and Materials Engineering from Bahauddin Zakariya University, Multan, Pakistan. Mubeen has made significant contributions to corrosion-resistant coatings, nanomaterials, and advanced composite materials, authoring 25 documents with a total of 620 citations and an h-index of 12 according to Scopus. His key publications include studies on anti-corrosion self-healable epoxy coatings reinforced with Guanine-MRS@MoS2 heterostructures, heterostructured melamine resin spheres@GO epoxy composites for automotive applications (Chemical Engineering Journal, 2024), and the development of automated rust detection networks for steel structures (Archives of Civil and Mechanical Engineering, 2025). Mubeen’s research experience spans the synthesis and characterization of nanomaterials, fabrication of smart coatings for Zn-Al-Mg coated steel, and exploration of Nitinol alloys for biomedical applications. He has also actively engaged in professional internships at Pepsico, Inc., and PECS Industries, contributing to engineering, supply chain, and corporate affairs projects. His accolades include the Chinese Government Scholarship, PEEF Merit-Based Scholarship, and recognition for best research posters and interuniversity leadership. In addition to research, he has volunteered with organizations such as the Edhi Foundation and Bike Angel Association of China, reflecting his commitment to societal impact and STEM outreach.

Profile : Scopus | ORCID | Google Scholar

Featured Publications

Murtaza, H., Zhao, J., Tabish, M., Wang, J., Mubeen, M., Zhang, J., & Zhang, S. (2024). Protective and flame-retardant bifunctional epoxy-based nanocomposite coating by intercomponent synergy between modified CaAl-LDH and rGO. ACS Applied Materials & Interfaces, 16(10), 13114–13131.

Mubeen, M., Zhao, J., Tabish, M., Wang, J., Mahmood, M., Murtaza, H., & Jawad, M. (2024). Heterostructured melamine resin Spheres@GO reinforced epoxy composite achieving robust corrosion-resistance of Zn-Al-Mg coated steel for automotive applications. Chemical Engineering Journal, 499, 156070.

Mahmood, M., Mubeen, M., Wang, W., Tabish, M., Murtaza, H., & Jawad, M. (2025). Mechanically robust and self-healing protective coating for Zn-Al-Mg coated steel enhanced by benzotriazole-5 carboxylic acid intercalated MgAlCe ternary LDH. Progress in Organic Coatings, 201, 109107.

Flehan, A., Jinna, L., Tabish, M., Kumar, A., Mohammed, Y. A. Y. A., & Mubeen, M. (2023). Development of anti-corrosion and hydrophobicity of a nanostructured Ce-La film via the PDA post-treatment modification. Journal of Alloys and Compounds, 968, 172139.

Khalid, S., Mubeen, M., Tabish, M., Jawad, M., Malik, M. U., Ilyas, H. M. A., & others. (2025). When low-dimensional nanomaterials meet polymers: A promising configuration for flame retardancy and corrosion protection. Chemical Engineering Journal, 515, 163678.

Vipin Kumar Sharma | Advanced Separation | Best Researcher Award

Published on by Metallurgical Engineering

Dr. Vipin Kumar Sharma | Advanced Separation | Best Researcher Award

Research Scholar at Indian Institute Of Technology (IIT) Tirupati | India

Dr. Vipin Kumar Sharma is a dedicated and accomplished chemical engineer with a strong academic and professional background. He earned his B.Tech. and M.Tech. in Chemical Engineering with First Class Distinction from SRM University, where he was awarded a Gold Medal and an SRM University Scholarship for academic excellence. He also holds postgraduate diplomas in Health, Safety & Environment and Business Administration from Annamalai University, both with First Class Distinction. Dr. Sharma completed his Ph.D. in Chemical Engineering at the Indian Institute of Technology, Tirupati. With over 15 years of professional experience, he has made significant contributions in the fields of heavy vessel design, fertilizer, cement, and uranium processing industries. Currently, he serves as Additional Superintendent (Mill & Safety) at Uranium Corporation of India Limited under the Department of Atomic Energy, where he oversees operations, safety, and regulatory compliance with agencies such as AERB, CPCB, and BARC. His research has been published in several SCI and Scopus-indexed journals, earning accolades such as the Best Paper Award during the Platinum Jubilee Celebration of IIChE (2022), and multiple technical paper awards. He has 4 publications with 5 citations and an h-index of 2, according to his Scopus profile. Dr. Sharma is affiliated with numerous professional bodies including ASME, IEI, IAENG, IFERP, and ISHMT, and serves as an Executive Alumni Member and Board of Studies Member at SRM University and KPR Institute of Engineering and Technology.

Profile : Scopus | ORCID | Google Scholar

Featured Publications

Sharma, V. K., Namboori, V. R., Tunga, C. R., & Lankalapalli, K. (2023). Technical modification of alkali leaching circuit to improve slurry throughput into the autoclave. Chandrasekhar, L., Lankalapalli, K., & Sarkar, S. (8).

Sharma, V. K., Thamida, S. K., & Reddy, B. N. K. (2023). Carbonation and modeling study for process liquor in batch mode using flue gas in the mining and mineral processing industry. Chemical Papers, 11(4), 1–17.

Sharma, L. R. V. K. (2019). Case study of air quality at Tummalapalle Mill and effective actions for improvement. In 36th DAE Safety & Occupational Health Professional Meet organised by Nuclear… (7*).

Sharma, V. K., Thamida, S. K., & Reddy, B. N. K. (2023). Engineering study of water jacket system in place of a spiral heat exchanger at mining and mineral ore processing industry. European Chemical Bulletin, 12(7), 1507–1512.

Sharma, V. K. (2020). Effective use of LDO fired boiler flue gas in carbonation of process liquor at alkali leaching based Tummalapalle Mill. Singhania University, District Jhunjhunu, Rajasthan, India. (5).