Antoni Mir Pons | Smart Materials | Young Scientist Award

Published on 30/09/202530/09/2025 by MTE Awards

Mr. Antoni Mir Pons | Smart Materials | Young Scientist Award

University of the Balearic Islands | Spain

Mr. Antoni Mir Pons is a Spanish civil engineer specializing in construction engineering and structural reinforcement, currently serving as a researcher at the University of the Balearic Islands (UIB). He holds a Bachelor’s degree in Industrial Technologies Engineering and Business Administration and Management from the University of Girona. He also earned a Master’s in Industrial Engineering from UIB, where he received the Best Master’s Thesis award. His doctoral research focuses on the effects of semi-cyclic loading on structural reinforcement using iron-based shape-memory alloys (Fe-SMA). Pons has contributed to several international conferences, including SMAR 2024 in Salerno and the 15th fib International PhD Symposium in Budapest, presenting studies on Fe-SMA reinforced concrete structures. His research interests encompass concrete structures and blasting, with a particular emphasis on the application of Fe-SMA for strengthening existing structures. He has been involved in various R&D projects, such as RESTART and CICLO-ESTRUCTURA, focusing on the resilience of concrete infrastructure and the structural effects of cyclic overloads on Fe-SMA reinforced concrete beams. Pons has published articles in peer-reviewed journals, including “Experimental study on semi-cyclic loading effects on Fe-SMA reinforced concrete structures” and “Effects of semi-cyclic loading on the recovery stresses of iron-based shape-memory alloy bars,” both co-authored with Sandra del Río Bonnín, Carlos Ribas, and Antoni Cladera. His Scopus profile indicates 4 documents, 2 citations and an h-index of 1. Additionally, he has teaching experience in laboratory practices for the Structures I course in the Technical Architecture program at UIB. Pons is also active on ResearchGate, where he shares his publications and collaborates with fellow researchers.

Profile: Scopus

Feautured Publilcations

Mir Pons, A., Del-Río-Bonnín, S., Ruiz-Pinilla, J. G., & Cladera, A. (2025). Experimental study on recovery stress losses in Fe-SMA rebars under semi-cyclic loads considering different activation temperatures and multiple activations. Journal of Structural Engineering, 151(9), 04023109.

Mir Pons, A., Del-Río-Bonnín, S., Ribas, C., & Cladera, A. (2024). Experimental study on semi-cyclic loading effects on Fe-SMA reinforced concrete structures. Materials and Structures, 57(6), 1–16.

Mir Pons, A., Del-Río-Bonnín, S., Ribas, C., & Cladera, A. (2024). Effects of semi-cyclic loading on the recovery stresses of iron-based shape-memory alloy bars. Materials Science and Engineering: A, 859, 144151.

Mir Pons, A., Kustov, B., Ruiz Pinilla, J. G., & Cladera, A. (2024). Characterization of 11-mm Fe-SMA bars used as prestressing reinforcement in concrete structures. Proceedings of the 13th International Conference on Smart Materials and Nanotechnology in Engineering (SMN 2024), 1–8.

Mir Pons, A., Del Río-Bonnín, S., Ribas, C., & Cladera, A. (2024). Effects of semi-cyclic loading on reinforced concrete beams strengthened with iron-based shape-memory alloy bars. Proceedings of the 15th fib International PhD Symposium in Civil Engineering, 1–8.

Seyed Morteza Mirmohammadi | Thermoplastic Composites | Best Researcher Award-duplicate-1

Published on 16/09/202516/09/2025 by MTE Awards

Seyed Morteza Mirmohammadi | Thermoplastic Composites | Best Researcher Award

Islamic Azad University | Iran

Dr. Seyed Morteza Mirmohammadi is an Iranian researcher whose academic and professional trajectory spans textile engineering, polymer-based composites, and industrial systems optimization. He earned his B.Sc. in Textile Engineering from Islamic Azad University, Kashan, followed by an M.Sc. in Industrial Engineering from Islamic Azad University. He is currently pursuing a Ph.D. in Textile Engineering at Islamic Azad University, alongside completing a DBA in Finance from Fanavaran Hakim, Iran, reflecting his multidisciplinary academic profile. His research focuses on advanced materials, particularly polymer-based composites and hybrid woven fabrics, with a strong emphasis on ballistic impact resistance and energy absorption in textile structures. He applies advanced optimization techniques such as Response Surface Methodology (RSM) and Analytic Hierarchy Process (AHP) to develop efficient design and management strategies in engineering systems. Mirmohammadi has presented at numerous national and international conferences, actively contributing to the fields of industrial engineering, composites, and textile technologies, and has published several scholarly works, including notable studies on ballistic impact resistance of hybrid Kevlar/Polypropylene woven fabric composites. He has also been engaged in academic workshops on strategic management and quality systems, aligning his technical expertise with organizational and managerial insights. His professional qualifications include certifications in internal auditing, occupational health and safety, CE marking and risk assessment, as well as marketing management. With advanced skills in research, academic writing, statistical modeling software (SPSS, MATLAB, MINITAB), and quality engineering, he has positioned himself as a versatile scholar and practitioner bridging the gap between materials science, textile engineering, and strategic industrial management.

Pofile: ORCID

Featured Publication

Mirmohammadi, S. M., Shaikhzadeh Najar, S., & Kamali Dolatabadi, M. (2025). Energy absorption of ballistic impact in hybrid Kevlar/Polypropylene woven fabric composites preloaded under simple shear mode: Response surface methodology modeling utilizing a Box–Behnken design. Polymer Composites.

Yongwei Wang | Metallic Glasses | Best Researcher Award

Published on 22/07/202522/07/2025 by MTE Awards

Assist. Prof. Dr. Yongwei Wang | Metallic Glasses | Best Researcher Award

Assistant Professor at University of Science and Technology Beijing, China.

Dr. Yongwei Wang is a leading researcher in metallic glasses, additive manufacturing, and advanced alloy design. He currently serves as an Assistant Professor at the University of Science & Technology Beijing, within the Collaborative Innovation Center of Steel Technology. Dr. Wang has made significant contributions to the design of gradient interfaces, nanoglasses, and composition-optimized materials through data-driven and computational methods 📊💻. With a joint Ph.D. experience at the Georgia Institute of Technology , he bridges East-West academic collaboration. His research is highly interdisciplinary, integrating materials science, mechanics, and thermodynamics 🔩. A prolific author, he has published extensively in Scripta Materialia, Computational Materials Science, and MRS Bulletin 📰📚. Passionate about innovation and sustainability, Dr. Wang continues to push boundaries in developing high-strength, high-toughness materials for critical applications 🏗️.

Professional Profiles

Scopus

Google Scholar

Education📚

Dr. Wang’s academic journey began at the University of Science & Technology Beijing (USTB) 🎓, where he earned his Bachelor’s degree (2005–2009), followed by a Graduate Diploma (2009–2010), and subsequently a Ph.D. in Mechanical Engineering (2010–2017) 🧠⚙️. From 2012 to 2014, he undertook a prestigious joint Ph.D. at Georgia Institute of Technology 🇺🇸, specializing in materials science and engineering 🔬🧪. His Ph.D. research focused on the mechanical behavior of metallic glasses and the influence of microstructural heterogeneity. Through both Chinese and international platforms, he developed expertise in interface science, microstructure characterization, and computational simulations 🧬🧮. His international exposure and rigorous domestic training positioned him as a multidisciplinary thinker capable of navigating both theoretical modeling and practical engineering innovation 📘🌍. This strong foundation underpins his current research in additive manufacturing, gradient materials, and high-performance steel development 🔩🏗️.

Professional Experience

Dr. Wang currently works at the University of Science & Technology Beijing as an Assistant Professor 👨‍🏫 (2019–present), where he leads cutting-edge research in metallic glass composites, gradient nanoglasses, and structural alloy design 🔧🧱. He previously served as a Postdoctoral Fellow at Peking University (2017–2019), contributing to projects on heterogeneous microstructures and mechanical property optimization 🛠️🔬. He is deeply involved in national-level research, including China’s National Foreign Expert Project, Key R&D Plans, and several NSFC-supported studies 📊📋. His work spans advanced manufacturing, multi-level interface design, and the development of smart data standards for materials 📁🖥️. Dr. Wang also contributes as a principal investigator, co-investigator, and technical lead in multiple collaborative projects aimed at solving real-world industrial problems in metallurgy, steel processing, and high-speed transport 🚄🧪. He balances academia and engineering innovation with international collaboration and data-driven design 🧠🌐.

Research Focus 🔍

Dr. Wang’s research focuses on designing and optimizing metallic glasses, nanoglasses, and advanced high-strength materials. His projects revolve around:
1️⃣ Gradient interface strengthening to enhance both ductility and toughness
2️⃣ Oxide design and phase transformation in additive manufacturing 🔩🌡️
3️⃣ Spinodal decomposition in metallic glass composites
4️⃣ Thermodynamic modeling and experimental validation using CALPHAD and first-principles methods 🧪
5️⃣ Data standardization for materials engineering under national guidelines 📊🖥️
Dr. Wang applies a combination of experimental metallurgy, computational simulations, and data-driven design to develop materials with superior thermal stability, wear resistance, and mechanical integrity 🚀🏗️. His innovations are particularly relevant to industries such as aerospace, transportation, and high-speed rail systems 🚄🔬. Through national and international collaborations, he is redefining the future of high-performance functional materials 🌍🧬.

Awards & Honors🏆

Dr. Yongwei Wang’s research has been recognized through numerous prestigious funding programs and national research projects 🏅📘. He received the Postdoctoral Foundation for Young Scholars at Peking University and has led major grants including the National Foreign Expert Project (G2022105033L) and China’s Key R&D Plan (2020YFB0704504-02). He is a recipient of the Youth Teacher International Exchange Growth Program (QNXM20210044) and has also received internal university funds for basic research and innovation. His pioneering work on nanoglass strengthening, harmless oxide design in stainless steel, and metallic glass deformation mechanisms has not only been funded but also cited widely across global publications 📚🔍. As a leader in computational and experimental metallurgy, he continues to receive accolades for pushing boundaries in sustainable manufacturing and materials reliability ⚙️♻️. His work contributes directly to China’s goal of becoming a global leader in materials innovation.

Conclusion

Dr. Yongwei Wang exemplifies the qualities of an outstanding researcher: academic rigor, innovation, and impactful contributions to metallic glass technology, additive manufacturing, and computational alloy design. His cross-disciplinary work and leadership in national research initiatives, combined with a strong publication record, make him highly suitable for the Best Researcher Award. By increasing international visibility and expanding translational research, his profile will further solidify among top global materials scientists.

Publications to Noted

Toughen and harden metallic glass through designing statistical heterogeneity

Authors: Yongwei Wang, Mo Li, Jinwu Xu

Journal: Scripta Materialia, Vol. 113, Pages 10–13

Citations: 61

Year: 2016

Free volume gradient effect on mechanical properties of metallic glasses

Authors: Yongwei Wang, Mo Li, Jinwu Xu

Journal: Scripta Materialia, Vol. 130, Pages 12–16

Citations: 49

Year: 2017

Computational materials design: Composition optimization to develop novel Ni-based single crystal superalloys

Authors: Bin Xu, Haiqing Yin, Xu Jiang, Cong Zhang, Ruijie Zhang, Yongwei Wang, Xuanhui Qu

Journal: Computational Materials Science, Vol. 202, Article 111021

Citations: 21

Year: 2022

Mechanical properties of spinodal decomposed metallic glass composites

Authors: Yongwei Wang, Mo Li, Jinwu Xu

Journal: Scripta Materialia, Vol. 135, Pages 41–45

Citations: 16

Year: 2017

From patterning heterogeneity to nanoglass: A new approach to harden and toughen metallic glasses

Authors: Yongwei Wang, Herbert Gleiter, Mo Li

Journal: MRS Bulletin, Pages 56–67

Citations: 12

Year: 2023

Design of Ni-based turbine disc superalloys with improved yield strength using machine learning

Authors: Bin Xu, Haiqing Yin, Xu Jiang, Cong Zhang, Ruijie Zhang, Yongwei Wang, Zhi Deng, Xuanhui Qu

Journal: Journal of Materials Science, Vol. 57 (22), Pages 10379–10394

Citations: 12

Year: 2022

Manufacturing process and microstructure of copper-coated aluminum wires

Authors: Xiaohua Chen, Tang X., Zidong Wang, Hong X., Mo Li, Yongwei Wang

Journal: International Journal of Minerals, Metallurgy and Materials, Vol. 22 (2), Pages 190–196

Citations: 12

Year: 2015

Experimental investigation and thermodynamic modeling of the Mo–Co–B ternary system

Authors: Yangfan Liu, Cong Zhang, Bin Xu, Guoqiang Yang, Xue Jiang, Shuyan Zhang, Yongwei Wang, Ruijie Zhang, Haiqing Yin

Journal: Calphad, Vol. 75, Article 102354

Citations: 5

Year: 2021

Qiangqiang Tan | Conversion Materials | Outstanding Contribution Award

Published on 27/05/202527/05/2025 by MTE Awards

Prof. Dr. Qiangqiang Tan | Conversion Materials | Outstanding Contribution Award

Professor at Institute of Process Engineering, Chinese Academy of Sciences, China.

🌟 Dr. Qiangqiang Tan, a Ph.D. graduate and professor, leads groundbreaking research in advanced energy materials at the Chinese Academy of Sciences (CAS). As the Group Leader of Advanced Energy Materials at the State Key Laboratory of Mesoscience and Engineering, he has significantly contributed to sustainable energy technologies. With expertise in lithium and sodium-ion batteries, functional composite materials, and core industrialization technologies, Dr. Tan has established state-of-the-art production lines for cathode materials and test platforms. His innovative work includes hosting over 60 research projects and publishing 100+ impactful papers in international journals like Nano Energy and J. Power Sources. A prolific inventor, he holds 253 patents, including several international patents. Dr. Tan’s dedication to innovation has earned him numerous prestigious awards, including the Golden Bridge Award and multiple provincial innovation prizes. His passion drives the development of transformative technologies for a sustainable future. 🌍🔋✨

Professional Profiles

ORCID

Scopus

Education

🎓 Dr. Qiangqiang Tan’s academic journey began at the University of Science and Technology, Beijing (1999–2003), where he earned his doctorate in materials science and engineering. 🏫📜 During his studies, he focused on advanced materials for energy storage systems, laying the foundation for his groundbreaking contributions to sustainable energy technologies. His rigorous academic training equipped him with a deep understanding of energy materials’ theoretical and practical aspects. Alongside his doctoral research, Dr. Tan actively engaged in scientific collaborations, expanding his expertise in advanced synthesis methods and characterization techniques. 💡🔬 His dedication and academic excellence have not only shaped his career as a leading scientist but also inspired the next generation of researchers in the field of advanced energy materials. 🌟📖

Professional Experience

🌟 Dr. Qiangqiang Tan’s professional career spans over two decades of excellence in research and innovation. Currently a professor at the Institute of Process Engineering, CAS (2012–Present), he previously served as an associate professor (2006–2012) and postdoctoral researcher (2003–2005) at the same institute. During his tenure, Dr. Tan has held leadership roles, including Director of Science and Technology Development Division and Director of Industrial Development, showcasing his strategic vision in advancing energy technologies. 🚀 He has established industrial production lines for cathode materials and functional composites, bridging the gap between laboratory research and industrial application. Dr. Tan’s work embodies the integration of academic knowledge with practical industrial solutions, driving innovation in energy materials and contributing to national and global sustainability goals. 🔋🌍 His extensive experience highlights a career dedicated to impactful research and transformative technological advancements.

Award and Honors🏅

🏆 Dr. Qiangqiang Tan has garnered over 30 prestigious awards, reflecting his dedication to innovation and excellence. Notable achievements include the Golden Bridge Award for outstanding technological contributions and multiple first prizes in Hebei Province’s innovation and entrepreneurship competitions (2021–2024). 🌟 He also earned the “Outstanding Contribution Project Award” for new material technologies and was recognized among the “Top 100 New Technology and New Product Innovations” in 2016. As a committed educator and innovator, Dr. Tan received accolades for advancing industry-university collaboration and transforming scientific research into impactful industrial solutions. 🌍🔋 These honors underscore his ability to bridge academic research and practical applications, driving progress in sustainable energy technologies and functional composite materials.

Research Focus 🔍

🔬 Dr. Qiangqiang Tan’s research centers on advanced energy materials and functional composite materials, with a particular emphasis on sustainability. His work explores cutting-edge innovations in lithium-ion and sodium-ion battery cathode materials, including P2-type layered oxides and polyanion-type structures. 🔋💡 He also focuses on scalable solid electrolytes for next-generation batteries, aiming to enhance energy efficiency and reduce environmental impact. 🌍✨ Dr. Tan’s research integrates pilot-scale development and industrialization, ensuring seamless translation from laboratory discoveries to practical applications. He has successfully led the establishment of state-of-the-art production lines and platforms, pushing the boundaries of sustainable materials science. His work contributes to the global transition to cleaner energy solutions, making a tangible impact on energy storage technologies. 🌱🔧

Conclusion

Dr. Qiangqiang Tan is exceptionally well-suited for the Outstanding Contribution Award. His blend of research excellence, industrial leadership, and innovation aligns perfectly with the award’s criteria. Addressing the suggested areas for improvement could enhance his already stellar portfolio and maximize his contributions to the scientific community.

Publications to Noted

Realizing the high stability of P2-type layered cathode materials for sodium-ion batteries based on the diagonal rule strategy
Authors: C. Wu, Chen; Y. Xu, Yuxing; J. Song, Jiechen; A. Wei, Aijia; Q. Tan, Qiangqiang
Journal: Materials Today Energy
Year: 2025

Research progress on P2-type layered oxide cathode materials for sodium-ion batteries
Authors: C. Wu, Chen; Y. Xu, Yuxing; J. Song, Jiechen; A. Wei, Aijia; Q. Tan, Qiangqiang
Citations: 6

Preparation and Performance Investigation of Carbon-Coated Li1.2Mn0.2Ti0.6O2/C Cathode Materials
Authors: Y. Zhou, Yuncheng; Y. Xu, Yuxing; J. Song, Jiechen; Q. Tan, Qiangqiang
Journal: ACS Applied Materials and Interfaces
Year: 2024

Enabling a scalable composite solid electrolyte via cathode-supported scale-up processing
Authors: J. Song, Jiechen; Y. Xu, Yuxing; Y. Zhou, Yuncheng; A. Wei, Aijia; Q. Tan, Qiangqiang
Journal: Journal of Materials Chemistry A
Year: 2024

Revealing the effect of double bond-modified Li6.75La3Zr1.75Ta0.25O12 on the Li-ion conduction of composite solid electrolytes
Authors: J. Song, Jiechen; Y. Xu, Yuxing; Y. Zhou, Yuncheng; A. Wei, Aijia; Q. Tan, Qiangqiang
Journal: Materials Today Energy
Year: 2024
Citations: 4

The Y3+ and W6+ co-doping into Ni-rich Co-free single-crystal cathode LiNi0.9Mn0.1O2 for achieving high electrochemical properties in lithium-ion batteries
Authors: H. Feng, Hailan; Y. Xu, Yuxing; Y. Zhou, Yuncheng; J. Yang, Jun; Q. Tan, Qiangqiang
Journal: Journal of Alloys and Compounds
Year: 2024
Citations: 6

Directional and Orderly Arranged Ni0.9Mn0.1(OH)2 Enables the Synthesis of Single-Crystal Ni-Rich Co-Free LiNi0.9Mn0.1O2 with Enhanced Internal Structural Stability
Authors: H. Feng, Hailan; Y. Xu, Yuxing; Y. Zhou, Yuncheng; J. Song, Jiechen; Q. Tan, Qiangqiang
Journal: ACS Omega
Year: 2024
Citations: 2

Effect of surface structure on electrochemical properties in Li1.2Ni0.2Ti0.6O2 cathode material
Authors: Y. Zhou, Yuncheng; Y. Xu, Yuxing; H. Feng, Hailan; F. Zhuge, Fuchang; Q. Tan, Qiangqiang
Journal: Journal of Materials Science
Year: 2023

Changjun Chen | Functional Materials | Best Researcher Award

Published on 03/04/202503/04/2025 by MTE Awards

Prof. Dr. Changjun Chen | Functional Materials | Best Researcher Award

Director at Soochow University, China

Prof. Changjun Chen is a distinguished researcher in laser materials processing and an expert in laser-assisted material removal, shaping, and surface modification. Currently a professor at Soochow University’s Laser Processing Research Center, he also serves as Secretary General of the Laser Industry Alliance of G60 S&T Innovation Valley of the Yangtze River and Jiangsu Province Laser Innovation. His research group focuses on understanding process-material interactions to enhance quality and productivity. Prof. Chen has published over 200 peer-reviewed papers, with more than 100 indexed in SCI, and holds over 30 patents. With international recognition, he serves on the editorial board of the Journal of Materials Engineering and Performance and is a member of IEEE and ISO. His contributions have significantly advanced laser welding, laser metal deposition, and laser-induced shaping, making a remarkable impact on aerospace, automotive, and energy industries. 🚀🔬

Professional Profiles🌎

Scopus

Orcid

Education

🎓 Prof. Changjun Chen obtained his BE degree in 2000 from Northeastern University, Shenyang, China, specializing in materials science. He later pursued a PhD at the Institute of Metal Research, Chinese Academy of Sciences, completing it in 2007. 📖 His doctoral research focused on advanced materials processing techniques. Following his PhD, he embarked on an academic journey at Wuhan University of Science and Technology, where he served as an associate professor from 2007 to 2011. In 2011, he earned the title of professor and transitioned to Soochow University, Suzhou. 🌍 In 2013-2014, Prof. Chen expanded his expertise internationally as a visiting scholar at Columbia University, New York, supported by the China Scholarship Council. His educational journey reflects a strong foundation in materials science and laser processing technologies. 📡🔬

Work Experience

🔹 2007-2011: Associate Professor, Wuhan University of Science and Technology 📌 🔹 2011-Present: Professor, Soochow University 📍 🔹 2013-2014: Visiting Scholar, Columbia University, New York 🌎 🔹 Secretary General, Laser Industry Alliance of G60 S&T Innovation Valley 🏆 🔹 Secretary General, Jiangsu Province Laser Innovation ⚙️ 🔹 International Editorial Board Member, Journal of Materials Engineering and Performance 📖 🔹 IEEE & ISO Member 📡 His career spans significant contributions to laser processing, industrial applications, and academic leadership. He has played a pivotal role in advancing laser manufacturing and materials science. ⚡

Research Focus 🔍

Prof. Chen’s research aims to understand the physics of process-material interactions for quality and productivity improvements. His key research areas include: 🔹 Laser metal deposition for superalloy and high-strength steel ⚙️ 🔹 Laser-forming of metallic foam for aerospace & automotive applications 🚗✈️ 🔹 Laser-induced temperature gradient shaping techniques 🌡️ 🔹 Fabrication of foam steel via laser metal deposition 🔩 🔹 Laser cladding of superalloy for gas turbines 🔥 🔹 Laser welding and sealing of glass to metal/alloy 🛠️ His work significantly impacts aerospace, automotive, and energy industries. 🌍

Conclusion

Prof. Changjun Chen‘s exceptional contributions to laser processing research, combined with his leadership, patents, and academic influence, make him a strong candidate for the Best Researcher Award 🏆. With a proven track record in high-impact publications, industrial applications, and scientific leadership, his work has significantly shaped the field. Addressing minor areas of improvement, such as expanding global collaborations and industrial commercialization, could further strengthen his candidacy.

Publications to Noted

Effect of composite adding Ta and Mo on microstructure and properties of W-Mo-Cr high-speed steel prepared by laser metal deposition

Authors: Min Zhang, Changjun Chen, Liangxin Hong

Year: 2025

Preparation Process of WC Wear-Resistant Coating on Titanium Alloys Using Electro-Spark Deposition

Authors: Haodong Liu, Liuqing Huang, Dongsheng Wang, Changjun Chen, Aiyong Cui, Shikang Dong, Zhiwei Duan

Year: 2025

Effect of High-Temperature Oxidation on Laser Transmission Welding of High Borosilicate Glass and TC4 Titanium Alloy

Authors: Mengxuan Xu, Changjun Chen, Jiaqi Shao, Chen Tian, Min Zhang, Wei Zhang

Year: 2025

Ultrasonic Processing Across Different Phases in Laser Welding of Large Thin-Walled Structures

Authors: Haodong Liu, Dongsheng Wang, Changjun Chen, Aiyong Cui, Bing Wang, Li Han

Year: 2025

Comparative Study of the Effects of Different Surface States During the Laser Sealing of 304 Steel/High-Alumina Glass

Authors: Changjun Chen, Bei Bao, Jiaqi Shao, Min Zhang, Haodong Liu

Year: 2025

Effects of Different Surface Treatment Methods on Laser Welding of Aluminum Alloy and Glass

Authors: Changjun Chen, Lei Li, Min Zhang, Wei Zhang

Year: 2024

Wetting and Sealing of the Interface Between High-Alumina Glass and 304 Stainless Steel

Authors: Liwei Sui, Changjun Chen, Min Zhang

Year: 2024

Study on Laser Transmission Welding Technology of TC4 Titanium Alloy and High-Borosilicate Glass

Authors: Changjun Chen, Lei Li, Min Zhang, Mengxuan Xu, Wei Zhang

Year: 2024

Efects of Different Oxidation Methods on the Wetting and Diffusion Characteristics of a High-Alumina Glass Sealant on 304 Stainless Steel

Athors: Changjun Chen, Liwei Sui, Min Zhang

Year: 2024

Design of Maraging Steel with Aluminum by Laser Metal Deposition

Authors: Chen Gao, Linjun Jiang, Min Zhang

Year: 2023