Université de Lille - France

Author Profile

🎓 Early academic pursuits

Mathilde Maillard began her academic journey with a deep interest in materials chemistry, eventually specializing in biomaterials. this academic focus culminated in her pursuit of a phd in materials science and engineering, emphasizing biomedical applications. during her doctoral studies at cnrs lyon, she explored ceramic paste formulation with hydrogel for 3d printing, engaging in advanced rheological studies to optimize printability and mechanical properties. her academic path also included a notable visiting research experience at imperial college london, where she collaborated with the centre for advanced structural ceramics lab. this academic foundation has a strong alignment with the advancement of power electronics, especially through material optimization techniques relevant to biomedical devices.

💼 Professional endeavors

Following her phd, mathilde’s professional path expanded into both academic and industrial roles. she served as an r&d project manager at bone 3d in paris, where she worked on titanium implants using slm technology, and co-supervised phd research in collaboration with the french army. later, she became a postdoctoral researcher at inserm in paris and lille, focusing on hydrogel formulation, tissue engineering, and 3d bioprinting. notably, her work includes developing class iii medical devices, setting up point-of-care 3d printing facilities in hospitals, and fabricating custom 3d-printed tools for surgical applications. her cross-disciplinary experience, integrating power electronics in process optimization, plays a crucial role in developing smarter, responsive biomedical devices.

🔬 Contributions and research focus

Mathilde’s research is rooted in additive manufacturing, rheology, and the development of bio-inks and hydrogels for bone and soft tissue reconstruction. her contributions span Rheology for Ceramics 3D Printing optimizing formulations for direct ink writing (diw), investigating biological-mechanical relationships of printed constructs, and promoting sustainable and scalable techniques for medical use. by connecting rheological behavior to final product functionality, she bridges a critical gap in 3d bioprinting. her experimental results are foundational to understanding material interactions, and her research methodology can also benefit power electronics fields that require precision in composite material behavior under stress.

🌍 Impact and influence

Mathilde has significantly impacted both the biomedical and academic communities. as the founder of “bien dans ma thèse”, she advocates for phd well-being and doctoral value Rheology for Ceramics 3D Printing promotion. with a podcast series, public talks, and a thriving online community of over 2,000 members, she brings visibility and support to early researchers. her scientific work, especially in medical imaging, surgical guide design, and rheological optimization, has wide-reaching implications in personalized medicine. the translatability of her techniques to power electronics applications, such as micro-device fabrication, adds to her interdisciplinary influence.

📚 Academic cites

While early in her postdoctoral career, mathilde has already contributed peer-reviewed publications, including at least one indexed article during her recent postdoctoral tenure. her Rheology for Ceramics 3D Printing academic collaborations with international institutions and startups further extend her research visibility. her methodologies and findings have been cited in works focusing on biomaterials, tissue scaffolds, and 3d printing technologies, which can potentially enhance power electronics materials research, especially in the fabrication of biologically integrated electronics.

🌟 Legacy and future contributions

Mathilde Maillard’s vision is to advance the frontiers of biomedical engineering through innovative additive manufacturing methods. she is committed to bridging the gap between laboratory research and clinical application, particularly by integrating rheology, biomineralization, and 3d printing technologies for real-world use. her continued focus on soft matter for reconstructive surgery and scalable hydrogel formulations positions her as a future leader in this space. her entrepreneurial efforts also ensure that the phd community remains empowered, knowledgeable, and connected. with potential to further contribute to the power electronics industry through smart, bio-integrated materials, her legacy is set to span both healthcare and high-tech domains.

Notable Publications

Title: Advances and obstacles to unify the concept of “printability” in Ceramics Direct Ink Writing
Author(s): Mathilde Maillard, Sylvain Fournier, Esther García-Tuñón, Edwin-Joffrey Courtial
Journal: Open Ceramics
Title: Optimization of mechanical properties of robocast alumina parts through control of the paste rheology
Author(s): Mathilde Maillard, Jérôme Chevalier, Laurent Gremillard, Guilhem P. Baeza, Edwin-Joffrey Courtial, Sarah Marion, Vincent Garnier
Journal: Journal of the European Ceramic Society

Dr. Kakuro Amasaka – Production Engineering – Best Academic Researcher Award

Published on 19/06/202519/06/2025 by Innovator Awards

Dr. Kakuro Amasaka - Production Engineering - Best Academic Researcher Award

Aoyama Gakuin University/Graduate school of Science and Engineering - Japan

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🎓 Early academic pursuits

Dr. Kakuro Amasaka began his academic journey with a bachelor of engineering degree from hachinohe national college of technology, japan, in 1968. later, his passion for precision and quality led him to earn a doctor of engineering degree from hiroshima university in 1997, specializing in precision mechanical and system engineering, statistics, and quality control. his early commitment to scientific rigor and systems thinking laid the foundation for his significant influence on production engineering and power electronics applications.

🏢 Professional endeavors

Dr. Amasaka's illustrious career started at toyota motor corporation in 1968. over nearly three decades, he held diverse roles such as engineer and manager across production engineering, quality assurance, overseas engineering, manufacturing, and total quality management (tqm) promotion divisions. from 1998 to 2000, he served as general manager of the tqm promotion division. in 2000, he transitioned to academia as a professor at aoyama gakuin university's college and graduate school of science and engineering in tokyo, and has been professor emeritus since 2016.

🔬 Contributions and research focus

Dr. Amasaka has contributed significantly to the advancement of modern manufacturing principles. he developed new paradigms such as science sqc (statistical quality control), science tqm, new jit (just-in-time), and the new manufacturing theory, all grounded in deep customer science principles. his research also bridges kansei engineering, numerical simulation, cae, product r&d, and Production Engineering global supply chain management. in his work, innovations in power electronics have been integrated into quality and production system modeling, enhancing precision and efficiency in both theory and practice.

🌍 Impact and influence

His impact extends globally through academic societies and leadership roles. he has been a key figure in organizations like the japanese society for quality control, production and operations management society (poms), and european operations management association (euroma). notably, he served as vice chairman and later president of the japanese operations management Production Engineering and strategy association. his influence in power electronics has informed control systems development and real-time simulation in advanced quality frameworks worldwide.

🏅 Academic citations and honors

Dr. Amasaka’s scholarly output includes numerous influential papers and technical innovations. he has received 72 patents related to production systems and quality control technologies. notable awards include the aichi invention encouragement prize (1991), multiple nikkei quality control literature prizes, statistical quality control prize (1976), and the higashi kuninomiya Production Engineering culture and peace prizes. additionally, he received the albert nelson marquis achievement award (2017) and the best researcher award (2022) from sciencefather, further solidifying his legacy.

🌱 Legacy and future contributions

Dr. Amasaka’s work has created a lasting framework for future engineers and researchers to follow. his integration of systems thinking, quality engineering, and customer-centric design continues to guide modern manufacturing disciplines. the principles he introduced, especially within science tqm and science sqc, remain essential in optimizing not only traditional production systems but also in emerging areas such as sustainable engineering and power electronics-enabled smart manufacturing. as a mentor, researcher, and innovator, he continues to shape the academic and industrial landscapes.

Notable Publications

Title: Revolutionary Automobile Production Systems for Optimal Quality, Efficiency, and Cost
Author: Kakuro Amasaka
Journal/Publisher: Book published by IGI Global
Title: Examining a New Automobile Global Manufacturing System
Author: Kakuro Amasaka
Journal/Publisher: Book published by IGI Global

Assist. Prof. Dr. Gan Li – High Performance Manufacturing – Excellence in Research

Published on 08/04/202508/04/2025 by Innovator Awards

Assist. Prof. Dr. Gan Li - High Performance Manufacturing - Excellence in Research

China University of Petroleum - China

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🎓 Early academic pursuits

Gan Li began his academic journey with a dual bachelor's degree in mechanical design, manufacturing and automation, and engineering management from the china university of petroleum (east china) in 2018. his outstanding academic record and passion for high-precision engineering led him to pursue a ph.d. at the state key laboratory of high-performance precision manufacturing, school of mechanical engineering, dalian university of technology. completing his doctorate at just 26, he focused on pushing the boundaries of intelligent manufacturing and ultra-precision machining technologies, laying a strong foundation for his future innovations.

🚀 Professional endeavors

Dedicated to advancing cutting-edge engineering, dr. gan li currently serves as a lecturer at the college of mechanical and electronic engineering, china university of petroleum. he is also a vital member of the national engineering research center of marine geophysical prospecting and exploration and development equipment. his work encompasses diverse areas, including nontraditional machining, grinding technologies for hard and brittle materials, and the development of ultra-precision machine tools. his role as a researcher and educator has cemented his position as a rising star in china's manufacturing and engineering landscape.

🔬 Contributions and research focus

Dr. Li's research delves deep into intelligent manufacturing systems and ultra-precision machining. he has made significant breakthroughs in grinding technologies, particularly for materials with complex geometries and extreme hardness, such as tungsten alloys. his contributions to the development of advanced machining equipment and methodologies have led to enhanced High Performance Manufacturing precision and efficiency in industrial processes. with a strong focus on automation and simulation, his work supports the integration of new technologies in traditional manufacturing, creating innovative solutions for industrial challenges.

🏆 Accolades and recognition

Recognized for his technical ingenuity, dr. gan li has secured prestigious research grants including those from the ministry of education of the people's republic of china, the taishan scholars project, and the natural science foundation of shandong province. his innovative spirit is reflected in six granted patents, which encompass new techniques and devices for grinding operations High Performance Manufacturing and cnc machinery. each patent showcases his ability to address real-world challenges through engineering excellence, earning him a respected place among china's next generation of research leaders.

👨‍💼 Impact and influence

Dr. Li's research has directly influenced the design and manufacturing of next-generation ultra-precision equipment. his patented inventions, including grinding wheel measuring devices and High Performance Manufacturing pipe inspection robots, have paved the way for smarter, more efficient manufacturing solutions. his work not only impacts academia but also has strong implications for the mechanical and oil industries. his role in national research teams allows him to bridge academic innovation with practical application, contributing to the modernization of china’s high-performance manufacturing sector.

🌍 Legacy and future contributions

A visionary in his field, dr. gan li is committed to furthering research in ultra-precision technologies and intelligent systems. his future endeavors aim to enhance machining accuracy and automation while fostering collaboration between academic institutions and industries. by mentoring emerging researchers and engaging in transformative projects, he continues to shape the future of precision manufacturing. his legacy lies in building sustainable, intelligent machining technologies that will support innovation for years to come

Notable Publications

Title: A visualization method for cross-scale online monitoring of grinding state based on data-mechanism hybrid-driven digital twin system
Authors: Gan Li, Haoxiang Lu, Hao Wang, Yichuan Ran, Renjie Ji, Yonghong Liu, Yanzhen Zhang, Baoping Cai, Xiaokang Yin
Journal: Mechanical Systems and Signal Processing

Title: Residual stress and subsurface damage prediction in tungsten heavy alloy face grinding
Authors: Gan Li, Jinbo Liu, Hao Wang, Zhigang Dong, Renke Kang, Yan Bao
Journal: Journal of Manufacturing Processes

Title: Research on grinding wheel wear measurement methods: Current status and future perspectives
Authors: Li Gan, Bao Yan, Wang Zhongwang, Kang Renke, Dong Zhigang
Journal: 中国科学. 技术科学 (Science China Technological Sciences)

Title: Wheel Wear of Tungsten Heavy Alloy Precision Grinding and Its Influence Mechanism on Surface Quality
Authors: Li Gan, Kang Renke, Dong Zhigang, Wang Hao, Wang Zhongwang, Bao Yan
Journal: Hunan Daxue Xuebao / Journal of Hunan University (Natural Sciences)

Title: Undeformed chip thickness models for precise vertical-spindle face grinding of tungsten heavy alloy
Authors: Gan Li, Renke Kang, Hao Wang, Yan Bao, Yidan Wang
Journal: Precision Engineering

Prof. Ma Guangyi – mechanical engineering – Best Researcher Award

Published on 31/01/202531/01/2025 by Innovator Awards

Prof. Ma Guangyi - mechanical engineering - Best Researcher Award

dalian university of technology - China

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Early academic pursuits 🎓

Ma Guangyi embarked on his academic journey with a strong passion for mechanical engineering and advanced manufacturing technologies. his early education laid a solid foundation in engineering principles, leading him to pursue higher studies in the field. with an exceptional academic record, he advanced his expertise through rigorous research and innovation, eventually earning a doctoral degree. his dedication to academic excellence and scientific inquiry set the stage for his future contributions to additive manufacturing and nanomanufacturing.

Professional endeavors 🏛️

Throughout his career, ma guangyi has held esteemed positions in academia and industry, shaping the future of mechanical engineering and advanced manufacturing. as a professor and doctoral supervisor, he has mentored numerous researchers, fostering the next generation of scientists and engineers. his role as vice chairman of the additive manufacturing branch of the liaoning mechanical engineering society reflects his leadership in the field. additionally, his membership in national and international technical committees highlights his influence in standardizing and advancing additive and remanufacturing engineering practices.

Contributions and research focus 🔍

Ma Guangyi’s research is centered on additive manufacturing, remanufacturing engineering, and laser processing technologies. his work integrates cutting-edge nanomanufacturing mechanical engineering techniques to enhance material performance and production efficiency. as a key contributor to the development of advanced coatings and rare metal materials, his research bridges the gap between theoretical advancements and practical applications. by pushing the boundaries of laser processing and manufacturing innovations, he has significantly impacted industrial and scientific communities.

Accolades and recognition 🏆

Ma Guangyi’s contributions have earned him widespread recognition and prestigious accolades. he has been selected into the world’s top 2% scientists list for both 2023 and 2024, an mechanical engineering acknowledgment of his outstanding impact on global research. he has received numerous awards, including one gold medal at an invention exhibition, multiple first and second prizes in provincial and ministerial science and technology awards, and significant honors in natural science paper competitions. his editorial roles in leading journals such as "coatings" and "nanomanufacturing and metrology" further underscore his expertise and influence in the field.

Impact and influence 🌍

Ma Guangyi’s research has had a profound impact on the advancement of additive manufacturing and laser processing technologies. his work has contributed to the development of high- performance materials, efficient manufacturing processes, and sustainable engineering solutions. as a member of key scientific committees, he plays a vital role in shaping industry standards mechanical engineering and promoting technological innovations. his efforts in mentoring young researchers and collaborating with global experts have amplified his influence, fostering a new wave of scientific breakthroughs.

Legacy and future contributions 🚀

Ma Guangyi’s legacy is built on his unwavering commitment to scientific excellence and technological innovation. his pioneering work in additive manufacturing and remanufacturing engineering continues to inspire researchers worldwide. as he advances his research, his focus remains on bridging theoretical knowledge with practical applications, ensuring sustainable and efficient manufacturing solutions for future generations. his leadership in academia and industry solidifies his role as a key figure in the evolution of mechanical engineering and nanomanufacturing.

Notable Publications

Title: Direct additive manufacturing of melt growth Al₂O₃-ZrO₂ functionally graded ceramics by laser directed energy deposition
Authors: Wu, D.; Shi, J.; Niu, F.; Ma, G.; Zhou, C.; Zhang, B.
Journal: Journal of the European Ceramic Society
Title: Effect of low-temperature cooling on corrosion properties of laser welding Hastelloy C-276/304 stainless steel with filler wire
Authors: Cheng, B.; Wu, D.; Yue, K.; Ma, G.; Niu, F.
Journal: Optics and Laser Technology
Title: Effect of weaving frequency on pulsed laser weaving welding of thin 5052 aluminum alloy sheet
Authors: Niu, F.; Tang, B.; Yue, K.; Liu, D.; Ma, G.; Wu, D.
Journal: International Journal of Advanced Manufacturing Technology
Title: Formation mechanism of Al-Zn-Mg-Cu alloy fabricated by laser-arc hybrid additive manufacturing: Microstructure evaluation and mechanical properties
Authors: Liu, D.; Wu, D.; Wang, R.; Shi, J.; Niu, F.; Ma, G.
Journal: Additive Manufacturing
Title: Intermetallic regulation mechanism of inconel 718/Ti6Al4V composite by novel follow-up ultrasonic assisted laser additive manufacturing
Authors: Wu, D.; Song, C.; Di, T.; Niu, F.; Ma, G.
Journal: Composites Part B: Engineering

Dr. Ravi Shankar rai – Materials and Manufacturing technology – Best Researcher Award

Published on 28/08/202428/08/2024 by Innovator Awards

Dr. Ravi Shankar rai - Materials and Manufacturing technology - Best Researcher Award

Sandip Institute of Technology and Research Centre, Nashik, Maharashtra - India

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📚 Early academic pursuits

Ravi Shankar rai's academic journey began with a solid foundation in mechanical engineering. he completed his bachelor's degree in mechanical engineering from maharaja agarsain institute of technology, affiliated with aktu university, lucknow, in 2012, achieving an impressive 80.38%. his passion for advanced manufacturing technologies led him to pursue a master's degree in computer-aided manufacturing at madan mohan malaviya university of technology, gorakhpur, where he excelled with a cgpa of 9.43 in 2017. motivated by his academic success, he embarked on a doctoral journey at the prestigious indian institute of technology (ism), dhanbad, specializing in mechanical engineering. his phd, completed in december 2022 with a cgpa of 8.5, focused on cutting-edge research in the field of mechanical engineering.

🏢 Professional endeavors

ravi's professional career began shortly after his undergraduate studies when he joined greater noida college of technology as a pro-term lecturer in 2012. his dedication to teaching continued as he served as a lecturer at maharaja agarsain institute of technology, ghaziabad, from 2013 to 2015. during this time, he also contributed as a faculty member on contract at madan mohan malaviya university of technology, gorakhpur. after completing his master's, ravi pursued his phd at iit dhanbad, where he served as a teaching assistant, imparting knowledge in various subjects, including engineering drawing, manufacturing processes, workshop technology, and cnc programming. his teaching experience reflects his deep commitment to shaping the next generation of engineers.

🔬 Contributions and research focus

ravi's research contributions are noteworthy in the field of mechanical engineering, particularly in the domain of computer-aided manufacturing and metal forming. his doctoral research at iit dhanbad focused on innovative approaches to manufacturing processes, with a special emphasis on cnc programming and computer-aided design and manufacturing. his work explored the application of advanced technologies in improving Materials and Manufacturing technology manufacturing efficiency and precision, making significant strides in the field. ravi's research endeavors are driven by a desire to bridge the gap between theoretical knowledge and practical applications, contributing to the advancement of mechanical engineering.

🏅 Accolades and recognition

throughout his academic and professional journey, ravi has received recognition for his dedication and excellence. his academic achievements, including a high cgpa in both his master's and phd programs, are a testament to his commitment to learning and research. his contributions to teaching and mentoring students have also been acknowledged by the institutions he has been associated with. while specific awards and Materials and Manufacturing technology accolades are not detailed, ravi's academic and professional record speaks volumes about his dedication and expertise in the field of mechanical engineering.

🌍 Impact and influence

ravi shankar rai's work has had a significant impact on both academia and industry. as an educator, he has influenced numerous students, helping them build strong foundations in mechanical engineering and manufacturing processes. his research in computer-aided manufacturing Materials and Manufacturing technology and metal forming has the potential to drive innovation in the manufacturing industry, making production processes more efficient and cost-effective. ravi's ability to translate complex theoretical concepts into practical applications has made him a respected figure in the field, with the potential to shape the future of mechanical engineering.

🏛️ Legacy and future contributions

as ravi shankar rai continues his academic and research career, his legacy is one of dedication, innovation, and a passion for advancing the field of mechanical engineering. his future contributions are likely to be marked by groundbreaking research in manufacturing technologies and continued excellence in teaching. ravi's commitment to bridging the gap between academia and industry positions him as a key figure in driving technological advancements that can benefit both fields. his work will undoubtedly leave a lasting impact on the world of mechanical engineering, inspiring future generations of engineers.

Notable Publications

Surface functionalization of carbon fiber by hydrothermally synthesized ZnO nanostructures 2024(2)

Improvement of interfacial adhesion of CuO nanostructured carbon fiber reinforced polymer 2023(6)

One-step microwave synthesis of surface functionalized carbon fiber fabric by ZnO nanostructures 2023(1)

Synthesis of ZnO Nanostructures on Woven Kevlar Fabric and Impact of Hydrothermal 2023(2)

Rapid synthesis of ZnO nanostructures on woven carbon fiber using microwave treated chemical 2022(5)