Dr. Shanglong Li | Engineering | Research Excellence Award

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Dr. Shanglong Li | Engineering | Research Excellence Award

University-Appointed Associate Professor | East China Jiaotong University | China

Dr. Shanglong Li is a recognized academic and researcher in Engineering with specialized expertise in power electronics, power systems, and advanced converter technologies within modern Engineering applications. His work in Engineering focuses on power electronic converters, distributed energy systems, energy storage integration, and electric mobility Engineering solutions. Dr. Shanglong Li has authored 6 Documents with 67 Citations, reflecting strong scholarly impact and sustained contributions to Engineering research at an international level. His Engineering research outputs are widely disseminated through high quality journals and conferences, demonstrating innovation in control strategies, converter optimization, and system level Engineering design. He actively engages in collaborative Engineering research with industrial partners and research institutions, ensuring practical Engineering relevance and technology transfer. Several Engineering outcomes have supported applied development initiatives, contributing to grid reliability, energy efficiency, and sustainable Engineering solutions with measurable societal and industrial impact.


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Featured Publications

Dr. Helena Navarro | Engineering | Research Excellence Award

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Dr. Helena Navarro | Engineering | Research Excellence Award

Senior Research Fellow | University Of Birmingham | United Kingdom

Dr. Helena Navarro is an internationally recognised researcher whose work reflects sustained excellence in Engineering research, innovation, and global impact. Her expertise is deeply embedded in core Engineering domains including thermal Engineering, energy Engineering, materials Engineering, chemical Engineering, and systems Engineering, with a strong emphasis on sustainable energy Engineering solutions and industrial decarbonisation. Dr. Helena Navarro has authored more than fifty high quality peer reviewed Engineering publications and book chapters that are widely cited within the international Engineering community, demonstrating both depth and continuity of Engineering scholarship. Her Engineering research has been supported by competitive funding and advanced through large scale collaborative Engineering projects involving academia, industry, and international research organisations. Through Engineering driven innovation, she has contributed to patents, technology transfer activities, and pilot scale Engineering deployment, reinforcing the real world value of Engineering research. Her Engineering leadership has strengthened interdisciplinary Engineering collaboration, advanced clean energy Engineering technologies, and delivered measurable societal and industrial benefits through improved efficiency and reduced emissions. Google Scholar profile of 2714 Citations, 29 h-index, 44 i10 index.

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Thermal conductivity measurement techniques for characterizing thermal energy storage materials – A review

Renewable and Sustainable Energy Reviews, 2019
Cited by many (Scopus/Google Scholar)


Selection and characterization of recycled materials for sensible thermal energy storage

Solar Energy Materials and Solar Cells, 2012
Cited by 143+

Assoc. Prof. Dr. Mohammad Silani | Engineering | Research Excellence Award

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Assoc. Prof. Dr. Mohammad Silani | Engineering | Research Excellence Award

Associate Professor | Isfahan University of Technology | Iran

Assoc. Prof. Dr. Mohammad Silani is a distinguished figure in Engineering research, widely recognized for his contributions to computational mechanics, multiscale material modeling, fracture mechanics, and advanced numerical simulations. With an extensive background in Engineering applications, his work integrates molecular dynamics, finite element analysis, stochastic modeling, and phase-field theory to address complex material behavior in composite and nanocomposite structures. His Engineering research extends across multiscale modeling, machine learning–assisted simulations, and high-fidelity experimentation, establishing him as a leading contributor to Engineering innovation in computational materials science. He has served in multiple advanced academic and scientific capacities, has supervised doctoral and postgraduate research, and has actively collaborated internationally with institutions and Engineering research groups across Europe, Asia, and Australia. His scholarly output reflects a strong Engineering foundation, comprising many high-impact journal publications, conference contributions, and collaborations that have advanced computational Engineering and numerical methodology. His work on nanostructures, wear modeling, fatigue crack propagation, and hydrogen embrittlement demonstrates a deep Engineering perspective in bridging theory, simulation, and physical behavior. As a reviewer for numerous international journals, his expertise supports the global Engineering community through critical evaluation and scientific refinement. His research continues to influence structural integrity, biomaterial mechanics, lattice optimization, composites Engineering, mechanical design, and simulation-driven material development at multi-scale and multi-physics levels. His sustained contributions to Engineering research, academic leadership, and scientific cooperation reflect a career dedicated to advancing knowledge, improving computational frameworks, and developing reliable Engineering tools for industrial and scientific application. His work stands as a reference point for emerging researchers in Engineering modeling and mechanical material characterization, highlighting precision, innovation, and impactful academic leadership in modern Engineering science. Google Scholar profile of 3041 Citations, 22 h-index, 32 i10-index.

Profile: Google Scholar

Featured Publications

1. Koupaei, F. B., Javanbakht, M., Silani, M., Mosallanejad, M. H., & Saboori, A. (2026). Mechanics-based phase-field model for directional microstructure evolution: Multiscale finite element simulation of IN718 in DED process. Computational Materials Science, 261, 114342.

2. Sabetghadam-Isfahani, A., Silani, M., Javanbakht, M., & others. (2025). Molecular dynamics analysis of temperature and shear stress effects on nickel bi-crystal amorphization. Iranian Journal of Chemistry and Chemical Engineering, e732047.

3. Varshabi, N., Jafari, M., Jamshidian, M., Silani, M., Thamburaja, P., & Rabczuk, T. (2025). Phase-field modeling of stressed grain growth in nanocrystalline metals. International Journal of Mechanical Sciences, 110951.

4. Saffari, M. M., Javanbakht, M., Silani, M., & Jafarzadeh, H. (2025). Stress analysis of nanostructures including nanovoids and inclusions based on nonlocal elasticity theory with different kernels. International Journal of Applied Mechanics, 17(6), 2550041.

5. Sabetghadam-Isfahani, A., Javanbakht, M., & Silani, M. (2025). Atomistic-informed phase-field modeling of edge dislocation evolution in Σ3, Σ9, and Σ19 silicon bi-crystals. Computational Materials Science, 254, 113893.

Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

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Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

Associate Professor | Centre for UG and PG Studies, BPUT Rourkela | India

Dr. Atal Bihari Harichandan is a distinguished professional in the field of Engineering, widely recognized for his impactful contributions across multiple Engineering disciplines. With extensive experience and a commitment to advancing modern Engineering innovation, he has established himself as a leading figure in both academic and applied Engineering research. His scholarly pursuits reflect a consistent dedication to the development of advanced Engineering technologies, methodologies, and sustainable solutions that address real-world challenges. Throughout his Engineering career, Dr. Harichandan has actively engaged in interdisciplinary collaborations, bridging the gap between theoretical Engineering principles and industrial applications. His Engineering research has been instrumental in fostering innovation and improving Engineering processes that contribute to technological progress and societal advancement. He has authored numerous Engineering publications that have received significant academic attention and have become valuable references for emerging Engineering scholars and professionals globally. Dr. Harichandan’s Engineering excellence is reflected not only in his scholarly productivity but also in his leadership within collaborative Engineering projects and initiatives aimed at promoting sustainable growth and industrial development. His Engineering insights have contributed to enhanced designs, improved systems, and innovative Engineering frameworks that continue to inspire future research directions. With a strong global presence in the Engineering research community, Dr. Harichandan’s work exemplifies a dedication to knowledge dissemination, innovation, and continuous improvement within the Engineering domain. His commitment to mentoring young Engineering researchers further strengthens the foundation of global Engineering education and research culture. Scopus profile of 386 Citations, 39 Documents, 8 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Numerical Simulation of Harmonic Gust Induced 2D Low-Re Incompressible Flow Over Tandem Circular Cylinders using ECFRUNS. (2025). Journal of Research and Applications in Mechanical Engineering.

2. Square Cylinder Aerodynamics: Insights from Aeroacoustic Analysis. (2025). Journal of Aeronautics Astronautics and Aviation.

3. Effect of various reactor temperatures for mixed metallic oxides in chemical looping combustion system for carbon capture. (2025). Journal of Thermal Engineering.

Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

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Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

Assistant Professor | Rajalakshmi Engineering College | India

Dr. Saranya G is a distinguished researcher whose scholarly contributions in the field of Engineering reflect excellence, innovation, and academic depth. With extensive experience in Engineering research and development, Dr. Saranya has made substantial progress in advancing applied and theoretical aspects of modern Engineering systems. Her work demonstrates a profound understanding of Engineering methodologies, design, and implementation, consistently aligning with global research standards. Through dedication to quality research, Dr. Saranya has contributed to several impactful studies in Engineering, which have inspired both academic and industrial applications. Her research output is marked by a strong focus on interdisciplinary collaboration, bridging various domains of Engineering to achieve innovative and sustainable solutions. Dr. Saranya’s publications in reputed journals highlight her commitment to the continuous evolution of Engineering practices and her passion for advancing knowledge in the global Engineering community. Her professional excellence has strengthened the integration of computational techniques, material innovations, and system optimization within Engineering research frameworks. Dr. Saranya’s collaborations with leading scholars and institutions have further enhanced the visibility and applicability of her Engineering research. She remains actively engaged in advancing experimental and analytical techniques that contribute to the future of Engineering innovation. Her body of work stands as a testament to the transformative potential of research-driven Engineering advancements and their impact on societal progress and technological development. Her scholarly excellence continues to enrich the domain of Engineering, promoting a culture of intellectual rigor and innovation. Google Scholar profile of 167 Citations, 8 h-index, and 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Benazer, S. S., Dawood, M. S., Ramanathan, S. K., & Saranya, G. (2021). Efficient model for IoT based railway crack detection system. Materials Today: Proceedings, 45, 2789–2792.

2. Ambeth Kumar, V. D., Saranya, G., Elangovan, D., & Chiranjeevi, V. R. (2018). IOT-based smart museum using wearable device. International Conference on Innovative Computing and Communications, 27.

3. Saranya, G., Sivamangai, N. M., Ajayan, J., Sreejith, S., & Nithya, S. (2024). Semi-classical physics based model in AlGaN/BGaN based ultraviolet LED with p-AlGaN layer sandwiched around electron-blocking layer for droop-free efficiency. Micro and Nanostructures, 188, 207772.

4. Naveenkumar, R., Sivamangai, N. M., Napolean, A., Puviarasu, A., & Saranya, G. (2022). Preventive measure of SAT attack by integrating anti-SAT on locked circuit for improving hardware security. 2022 7th International Conference on Communication and Electronics Systems (ICCES), 14.

5. Jayanthi, P., Saranya, G., Duraimurugan, J., Sengodan, P., & Ravichandran, S. (2023). Construction of SnO₂/MWCNT nanocomposites as electrode materials for supercapacitor applications. Journal of Sol-Gel Science and Technology, 108(1), 112–119.

Jonathan Stromberg | Engineering | Best Researcher Award

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Mr. Jonathan Stromberg | Engineering | Best Researcher Award

Undergraduate Research | University of Idaho | United States

Mr. Jonathan Stromberg is an emerging talent in the field of engineering, demonstrating exceptional commitment to research, innovation, and interdisciplinary collaboration. With a solid foundation in biological engineering, his work bridges advanced engineering techniques with environmental and sustainability challenges. His contributions to PFAS and wastewater treatment research showcase deep analytical ability, where he co-authored multiple peer-reviewed publications focused on PFAS defluorination and the optimization of plasma reactor performance. His engineering expertise extends to managing complex analytical systems such as LC-MS, IC, and UV-Vis for evaluating degradation mechanisms, which reflects a practical understanding of applied engineering science. As the lead of a NASA-affiliated wastewater engineering project, Mr. Stromberg has guided a multidisciplinary team in developing an ammonia and biochar-based treatment system, integrating performance-driven engineering design with real-world environmental applications. Beyond laboratory work, he demonstrates leadership and innovation as President of Product Development for a nonprofit organization, directing engineering design and commercialization strategies for a patented drink-safety dispenser. His experience spans project management, technical documentation, and system integration, essential skills for high-level engineering problem-solving. Mr. Stromberg’s global outlook, shaped by his volunteer engineering efforts in Kenya, underscores his dedication to sustainable development and societal impact. His proficiency with tools such as CAD, SolidWorks, MATLAB, and Python reflects a robust engineering skillset adaptable to diverse technological domains. His academic excellence and mentorship as a Supplemental Instruction Leader further highlight his ability to apply engineering principles to educational and collaborative contexts. Mr. Jonathan Stromberg’s professional trajectory exemplifies the integration of innovative engineering research, leadership, and global responsibility, contributing meaningfully to scientific advancement and environmental sustainability. Scopus profile of 287 Citations, 5 Documents, 4 h-index.

Profile: Scopus

Featured Publication

1. Dynamics and equilibrium of heme axial ligation in mesoporous nanocrystalline TiO₂ thin films. (2010). Inorganic Chemistry.

Prof. Wenlong Song | Engineering | Best Scholar Award

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Prof. Wenlong Song | Engineering | Best Scholar Award

Associate Professor | Jining University | China

Prof. Wenlong Song, a distinguished figure in the field of Engineering, has made significant contributions to Mechanical Design, Manufacturing, and Automation. He earned his doctoral degree from Shandong University and serves as an Associate Professor and Graduate Supervisor at the School of Mechanical and Electrical Engineering, Jining University. His Engineering expertise focuses on efficient machining processes and advanced tool technology, where he has played a key role in leading multiple Engineering research initiatives. Prof. Song has successfully hosted several provincial, ministerial, and industrial Engineering projects, which have substantially advanced technological applications in precision machining and automation systems. His Engineering research has resulted in more than fifty academic publications and over forty authorized invention patents, reflecting his strong innovation capabilities and leadership in Engineering development. Recognized for his excellence, he has received multiple municipal and higher-level awards for his Engineering achievements. Prof. Song’s Engineering research skills encompass precision design, material optimization, process modeling, and manufacturing automation. His continued dedication to Engineering education and research demonstrates his commitment to nurturing the next generation of Engineering scholars while expanding the boundaries of modern mechanical systems. Through his extensive Engineering background and innovative approach, Prof. Wenlong Song stands out as a leading expert whose work continues to impact the Engineering community globally. 346 Citations, 33 Documents, 11 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. (2025). Analytical and experimental investigation of vibration response for the cracked fluid-filled thin cylindrical shell under transport condition. Applied Mathematical Modelling.

2. (2025). Friction behavior of molybdenum disulfide/polytetrafluoroethylene-coated cemented carbide fabricated with a spray technique in dry friction conditions. Coatings.

3. (2024). Fabrication and tribology properties of PTFE-coated cemented carbide under dry friction conditions. Lubricants.

Prof. Levent Trabzon | Engineering | Best Researcher Award

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Prof. Levent Trabzon | Engineering | Best Researcher Award

Faculty Member | Istanbul Technical University | Turkey

Prof. Levent Trabzon is a distinguished academic in Engineering, serving as Professor at Istanbul Technical University and Director of the MEMS Research Center. With a Ph.D. in Engineering Science from Penn State University, along with advanced degrees in Material Science & Engineering, he has built a career at the forefront of mechanical and materials Engineering. His professional journey spans leadership roles such as founding director of nanotechnology centers, advisory positions in international Engineering institutions, and consultancy in emergency management. His research covers microfluidics, MEMS, NEMS, nanomaterials, biomaterials, thin film deposition, and innovation in Engineering systems, with active involvement in international collaborations and numerous funded projects. Recognized with multiple Performance Awards, Article Performance Awards, and international innovation prizes, his work has significantly advanced Engineering applications in energy, environment, healthcare, and manufacturing. His Engineering skills include nanotechnology design, microsystem modeling, thin film fabrication, advanced materials processing, and innovation management. A prolific researcher with over a hundred documents in leading Engineering journals and conferences, his impact is reflected in patents, invited talks, and global recognition. Prof. Levent Trabzon continues to push the boundaries of Engineering through teaching, mentoring, and pioneering projects that integrate cutting-edge technologies for societal benefit. 1,422 Citations by 1,301 documents, 100 Documents, 19 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. Benzait, Z., & Trabzon, L. (2018). A review of recent research on materials used in polymer–matrix composites for body armor application. Journal of Composite Materials, 52(23), 3241–3263.

2. Saleem, H., Trabzon, L., Kılıç, A., & Zaidi, S. (2020). Recent advances in nanofibrous membranes: Production and applications in water treatment and desalination. Desalination, 478, 114178.

3. Ramazanoglu, M., Lutz, R., Rusche, P., Trabzon, L., Kose, G. T., Prechtl, C., & other authors. (2013). Bone response to biomimetic implants delivering BMP-2 and VEGF: An immunohistochemical study. Journal of Cranio-Maxillofacial Surgery, 41(8), 826–835.

4. Wang, J., Yang, Y., Wang, Y., Dong, S., Cheng, L., Li, Y., Wang, Z., Trabzon, L., & other authors. (2022). Working aqueous Zn metal batteries at 100 °C. ACS Nano, 16(10), 15770–15778.

5. Benzait, Z., Chen, P., & Trabzon, L. (2021). Enhanced synthesis method of graphene oxide. Nanoscale Advances, 3(1), 223–230.

Dr. Apratim Chakraborty | Engineering | Best Researcher Award

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Dr. Apratim Chakraborty | Engineering | Best Researcher Award

Postdoctoral Research Fellow at University of Michigan Dearborn, United States

Dr. Apratim Chakraborty is a distinguished researcher in Engineering, recognized for his advanced contributions to Engineering fields such as materials science, metallurgy, and additive manufacturing within Engineering. His profile demonstrates extensive involvement in Engineering research that integrates microstructure characterization, failure analysis, and optimization of complex Engineering processes. With publications in high-impact journals, Dr. Chakraborty has solidified his role in advancing Engineering knowledge and developing solutions to Engineering challenges. His experience reflects a professional journey in Engineering that combines academic rigor, industrial collaboration, and Engineering innovation. By driving forward projects in Engineering that address thin-wall components, superalloys, and sustainable approaches, Dr. Chakraborty embodies Engineering leadership and Engineering excellence across diverse domains of Engineering.

Professional Profile

Google Scholar Profile 

Education 

Dr. Apratim Chakraborty’s educational foundation is rooted in Engineering, having pursued advanced degrees in Engineering that highlight his specialization in mechanical and mechatronics Engineering. His academic trajectory has consistently reflected dedication to Engineering methodologies and Engineering applications, with doctoral-level research addressing additive manufacturing in Engineering contexts. Through rigorous research training in Engineering, he mastered areas such as superalloys, actuators, and thin-wall part fabrication, all contributing to Engineering innovation. His studies blended theoretical Engineering with applied Engineering, making his expertise comprehensive and impactful in Engineering. This progression underscores how his educational background in Engineering fosters continuous contributions to Engineering, ensuring his knowledge serves as a basis for future advancements in Engineering.

Experience 

Dr. Apratim Chakraborty’s professional experience centers on Engineering, showcasing positions that leverage Engineering research and Engineering practice across institutions in Engineering. His work as a postdoctoral fellow involved Engineering problem-solving in additive manufacturing and Engineering approaches to microstructural characterization. Industry engagements further emphasized Engineering solutions through consultancy and Engineering collaborations in R&D. He contributed to Engineering projects involving advanced alloys, powder characterization, and sustainable Engineering methods. By managing projects, mentoring students, and implementing Engineering strategies, Dr. Chakraborty’s career reflects the application of Engineering knowledge to real-world Engineering challenges. His experience highlights Engineering leadership, cross-disciplinary Engineering applications, and transformative Engineering outcomes that strengthen his professional presence in Engineering.

Research Interest 

Dr. Apratim Chakraborty’s research interests reflect a deep commitment to Engineering. His focus on Engineering encompasses additive manufacturing, alloy microstructures, thin-wall part fabrication, and sustainable Engineering approaches. He consistently explores Engineering pathways to improve failure analysis, process optimization, and material performance, reinforcing Engineering progress in industry and academia. His projects address Engineering challenges such as micro-cracking in alloys, advanced imaging techniques, and innovative design methodologies in Engineering. By integrating numerical modeling and experimental approaches, his Engineering research extends into practical domains of Engineering manufacturing and reliability studies. These interests illustrate his broad yet targeted dedication to Engineering, ensuring his work advances both theoretical Engineering and applied Engineering innovation.

Award and Honor

Dr. Apratim Chakraborty has earned recognition in Engineering through awards and honors that emphasize his Engineering achievements. His contributions to Engineering research, including impactful publications and Engineering innovations, reflect consistent excellence in Engineering. He has received citations and acknowledgment within Engineering communities, reinforcing his reputation as an Engineering leader. The honors signify his role in advancing Engineering by addressing critical Engineering issues such as additive manufacturing and metallurgical Engineering challenges. Each recognition reflects not only personal achievement but also the progress of Engineering fields through his dedication. The awards serve as validation of his Engineering expertise and Engineering impact, further solidifying his role in international Engineering research.

Research Skill

Dr. Apratim Chakraborty demonstrates extensive Engineering skills essential for advancing Engineering. His Engineering expertise includes additive manufacturing, metallurgical analysis, advanced microscopy, and Engineering-focused process optimization. He possesses Engineering problem-solving skills that address thin-wall fabrication, microstructure failures, and sustainable Engineering methodologies. His Engineering capabilities extend to teamwork, communication, and Engineering project management, which strengthen his role in collaborative Engineering research. By applying Engineering skills to both academic and industrial projects, he continuously enhances Engineering processes. His training in Engineering software, such as SolidWorks, complements his practical Engineering abilities, making his Engineering skill set diverse and impactful. These Engineering proficiencies define his contribution to Engineering research and Engineering practice.

Publication Top Notes 

Title: In-process failure analysis of thin-wall structures made by laser powder bed fusion additive manufacturing
Authors: A Chakraborty, R Tangestani, R Batmaz, W Muhammad, P Plamondon, ...
Journal: Journal of Materials Science & Technology

Title: Role of alloy composition on micro-cracking mechanisms in additively manufactured Ni-based superalloys
Authors: A Chakraborty, W Muhammad, JP Masse, R Tangestani, ...
Journal: Acta Materialia

Title: Processability and characterization of A20X aluminum alloy fabricated by laser powder bed fusion
Authors: M Ghasri-Khouzani, H Karimialavijeh, M Pröbstle, R Batmaz, ...
Journal: Materials Today Communications

Title: An efficient track-scale model for laser powder bed fusion additive manufacturing: part 1-thermal model
Authors: R Tangestani, T Sabiston, A Chakraborty, W Muhammad, L Yuan, ...
Journal: Frontiers in Materials

Title: An efficient track-scale model for laser powder bed fusion additive manufacturing: part 2—mechanical model
Authors: R Tangestani, T Sabiston, A Chakraborty, L Yuan, N Krutz, É Martin
Journal: Frontiers in Materials

Title: Micro-cracking mechanism of RENÉ 108 thin-wall components built by laser powder bed fusion additive manufacturing
Authors: A Chakraborty, R Tangestani, W Muhammad, T Sabiston, JP Masse, ...
Journal: Materials Today Communications

Title: Multi-scale model to simulate stress directionality in laser powder bed fusion: application to thin-wall part failure
Authors: R Tangestani, A Chakraborty, T Sabiston, L Yuan, M Ghasri-Khouzani, ...
Journal: Materials & Design

Title: An investigation into sinterability improvements of 316L binder jet printed parts
Authors: R Batmaz, A Zardoshtian, TD Sabiston, R Tangestani, A Chakraborty, ...
Journal: Metallurgical and Materials Transactions A

Title: Evaluation of different sintering agents for binder jetting of aluminum alloy
Authors: S Im, M Ghasri-Khouzani, W Muhammad, R Batmaz, K Esmati, ...
Journal: Journal of Materials Engineering and Performance

Title: Mitigating inherent micro-cracking in laser additively manufactured RENÉ 108 thin-wall components
Authors: A Chakraborty, R Tangestani, K Esmati, T Sabiston, L Yuan, É Martin
Journal: Thin-Walled Structures

Title: Direct aging of additively manufactured A20X aluminum alloy
Authors: H Karimialavijeh, M Ghasri-Khouzani, A Chakraborty, M Pröbstle, É Martin
Journal: Journal of Alloys and Compounds

Title: Comparison of additively manufactured and cast aluminum A205 alloy
Authors: H Karimialavijeh, M Ghasri-Khouzani, A Chakraborty, JP Harvey, É Martin
Journal: TMS Annual Meeting & Exhibition

Title: Anisotropic sintering behavior of stainless steel 316L printed by binder jetting additive manufacturing
Authors: K Esmati, A Chakraborty, S Pendurti, A Natarajan, É Martin
Journal: Materials Today Communications

Title: Effect of build height on micro-cracking of additively manufactured superalloy RENÉ 108 thin-wall components
Authors: A Chakraborty, R Tangestani, T Sabiston, N Krutz, L Yuan, É Martin
Journal: TMS Annual Meeting & Exhibition Supplemental Proceedings

Title: Design and characterization of self-biasing NiTi spring actuator
Authors: A Chakraborty
Journal: University of Waterloo

Title: Comparative assessment of Ti‐6Al‐4 V titanium alloy fatigue life improvement by vibratory peening, shot peening, and vibratory finishing
Authors: M Paques, A Chakraborty, B Changeux, HY Miao, W Muhammad, ...
Journal: Fatigue & Fracture of Engineering Materials & Structures

Title: Effect of precipitation hardening on the microstructure, mechanical, and corrosion properties of additively manufactured A20X aluminum alloy
Authors: H Karimialavijeh, A Chakraborty, M Azzi, M Proebstle, E Martin
Journal: Materials Science and Engineering: A

Title: Influence of Temperature and Print Orientation on Anisotropic Sintering in Binder Jet SS316L
Authors: K Esmati, A Chakraborty, S Pendurti, A Natarajan, É Martin
Journal: TMS Annual Meeting & Exhibition

Title: Effect of Shot Peening on Fatigue Properties of A20X Fabricated by Laser Powder Bed Fusion
Authors: H Karimialavijeh, A Chakraborty, M Proebstle, E Martin
Journal: TMS Annual Meeting & Exhibition

Title: Heat Treatment of A20X Alloy Manufactured Using Laser Powder Bed Fusion
Authors: H Karimialavijeh, A Chakraborty, M Proebstle, K Oishi, JP Harvey, ...
Journal: TMS Annual Meeting & Exhibition

Conclusion

In conclusion, Dr. Apratim Chakraborty exemplifies Engineering dedication through his journey in Engineering research, Engineering education, and Engineering practice. His expertise across Engineering domains such as additive manufacturing, material characterization, and process optimization reflects commitment to Engineering advancement. With recognition in Engineering, impactful Engineering publications, and innovative Engineering contributions, he stands as a role model in Engineering. His educational background in Engineering, coupled with professional experiences in Engineering academia and industry, ensures his lasting impact on Engineering. The culmination of his work demonstrates a holistic vision of Engineering that continues to inspire progress, innovation, and excellence within the global Engineering community through Engineering knowledge and Engineering leadership.