Gabriela Krupincová | Fiber-Based Textiles | Best Researcher Award

Dr. Gabriela Krupincová | Fiber-Based Textiles | Best Researcher Award

Doctorate at Technical University of Liberec, Czech Republic

Profiles:

🎓Early Academic Pursuits

Gabriela Krupincová embarked on her academic journey at the Technical University in Liberec, Faculty of Textile Engineering. She pursued a five-year master’s study program in Textile and Material Engineering, which she completed in 2003. Her passion for textiles and materials further led her to pursue a Ph.D. in the same field, which she earned in 2012. In addition to her academic achievements, she also completed a two-year study program in Engineering Education Training at the Technical University in Liberec, showcasing her dedication to both technical expertise and educational development.

🏢Professional Endeavors

Dr. Krupincová’s professional career has been closely tied to the Technical University in Liberec. Since May 2005, she has been a member of the Faculty of Textile Engineering, starting as a technical assistant and lecturer and later advancing to the position of assistant professor. Her roles within the university have been diverse, including serving as the deputy head of the Department of Textile Technologies from 2008 to 2010, and as the vice dean of the faculty for the organization and external relations from 2010 to 2012. She briefly held the position of dean in 2012. Additionally, she served as the vice dean of the faculty for Research, Development, and Innovation (R&D&I) from 2012 to 2020.

Beyond her roles at the university, Dr. Krupincová has been actively involved in various professional organizations. She has been a member of the Administrative and Representative Committee of the Czech Technology Platform for Textile since 2011 and the vice president of the Administrative and Representative Committee of Clutex – Technical Textiles since 2014. She has also contributed her expertise as a research worker in the ECOMODA project for Clutex and has been involved in the Student Chamber of the Faculty academic senate since 2023.

🔬Contributions and Research Focus

Dr. Krupincová’s research has been centered on the structure of fibrous assemblies, with a particular focus on the structure of linear textiles, deformation of yarns, and the definition of structural parameters of yarns. She has extensively studied the mathematical modeling of yarn surfaces, including the definition of yarn diameter, unevenness, and hairiness. Her work has also explored the evaluation of linear textiles and the impact of these indicators on selected characteristics of areal fabrics. Notably, she has delved into the development and use of barrier textiles and the integration of special non-textile materials for specific textile applications.

Her pedagogical activities include teaching various subjects in the Bachelor of Science and Follow-up Master of Science programs at the Faculty of Textile Engineering. She has supervised numerous diploma and bachelor’s theses and has led and collaborated on several pedagogical grants and projects.

🏆Accolades and Recognition

Throughout her career, Dr. Krupincová has been recognized for her significant contributions to the field of textile engineering. She has led and participated in numerous R&D&I projects, both in basic and applied science. Her work has been published in international scientific congresses, conferences, journals, and books, including contributions to specific chapters and patents. She has been an influential figure in the development of internal standards for testing various textile parameters.

Dr. Krupincová has been a recipient of various accolades, reflecting her outstanding research and leadership in the textile industry. Her involvement in the development of the computer-aided textile design system and the evaluation of new kinds of yarns and products has been particularly noteworthy.

🌍Impact and Influence

Dr. Krupincová’s work has significantly impacted the textile industry, particularly in the areas of textile technology and materials engineering. Her research on the structure and properties of fibrous assemblies has provided valuable insights into the design and production of textiles. Her involvement in projects like ModSimTex and various Czech Ministry of Education, Youth, and Sports initiatives has furthered the development of innovative textile solutions and industry-academic collaborations.

As a mentor and educator, she has influenced the next generation of textile engineers and researchers. Her guidance in R&D&I projects and her role in the Student Chamber of Faculty academic senate demonstrate her commitment to nurturing talent and promoting academic excellence.

🌟Legacy and Future Contributions

Dr. Gabriela Krupincová’s legacy is marked by her extensive contributions to textile engineering, her dedication to education, and her leadership in professional organizations. Her work has paved the way for advancements in textile technology, particularly in the areas of sustainable and innovative textile applications. As she continues to contribute to the field, her influence will undoubtedly inspire future research and development, furthering the integration of advanced materials and technologies in textile engineering. Her ongoing involvement in academic and professional communities ensures that her expertise and vision will continue to shape the future of the textile industry.

📖Publications:

Paper Title: Assessment of the effects of the use of preconsumer cotton waste on the quality of rotor yarns

  • Authors: Krupincová, G.
  • Journal: Heliyon
  • Year: 2024

Paper Title: The quality comparison of open-end rotor-spun yarns produced from cotton waste in gray state and after dyeing

  • Authors: Krupincová, G., Pechová, M.
  • Journal: Textile Research Journal
  • Year: 2023

Paper Title: Hairiness of staple fiber yarns Part I: mathematical modeling

  • Authors: Neckář, B., Das, D., Krupincová, G.
  • Journal: Journal of the Textile Institute
  • Year: 2016

Paper Title: Hairiness of staple fiber yarns Part II: model validation

  • Authors: Krupincová, G., Neckář, B., Das, D.
  • Journal: Journal of the Textile Institute
  • Year: 2016

Paper Title: Properties of viscose vortex yarns depending on technological parameters of spinning

  • Authors: Moučková, E., Mertová, I., Jirásková, P., Krupincová, G., Křemenáková, D.
  • Journal: Autex Research Journal
  • Year: 2015

Maxwell MacFarlane | Synthetic Fibers | Best Researcher Award

Dr. Maxwell MacFarlane | Synthetic Fibers | Best Researcher Award

Doctorate at Innovation and Development Engineer, United Kingdom

Profile:

🌟⛹️‍♂️Maxwell James MacFarlane: Innovator in Sports Technology and Player Safety

🎓Early Academic Pursuits

Maxwell James MacFarlane embarked on his academic journey with a keen interest in engineering and biomechanics. He earned his Bachelor’s degree in Biomedical Engineering from Strathclyde University. During his time at Strathclyde, Maxwell developed a robust foundation in medical device design and biomechanics. This experience ignited his passion for innovation in sports technology, particularly in the realm of player safety.

Driven by a desire to delve deeper into this field, Maxwell pursued a PhD at Cardiff University. His doctoral studies were conducted in collaboration with World Rugby and Sports Labs, focusing on the development of advanced devices to simulate player motion and assess skin injury risks on artificial turf. This interdisciplinary approach allowed Maxwell to blend his engineering expertise with practical applications in sports.

📚Professional Endeavors

Upon completing his PhD, Maxwell James MacFarlane joined Sports Labs as an Innovation and Development Engineer. In this role, he leverages his academic background and research experience to contribute to a diverse array of projects aimed at advancing sports technology and player safety. His work at Sports Labs involves close collaboration with Cardiff University and World Rugby, ensuring that his research has a direct impact on the field.

Maxwell’s professional journey is marked by his commitment to improving player safety through innovative solutions. His research and development efforts are focused on addressing the limitations of traditional test methods, which often fail to replicate realistic player-surface interactions. This dedication to enhancing player safety underscores Maxwell’s role as a leading figure in sports technology innovation.

🔬Contributions and Research Focus

One of Maxwell’s significant contributions is the development of the Skin Injury Device (SID). Traditional test methods for assessing skin injury risks on artificial turf often fall short in replicating the complexities of player-surface interactions. SID was designed to bridge this gap. The device features a 3D-printed impactor encased in Lorica Soft, a synthetic leather that mimics human skin. This innovative electro-mechanical apparatus uses roller coaster technology to generate a horizontal velocity of 5 m/s and a vertical velocity of 3 m/s, accurately simulating player motion.

In addition to SID, Maxwell developed the Maxwell Tribo Index (MTI), a novel classification system for evaluating turf abrasiveness and heat profiles. The MTI enhances the understanding of impact mechanics and sliding characteristics, providing valuable insights for manufacturers to optimize artificial turf for better player safety.

Maxwell’s areas of research encompass sustainable polymer design, polymer self-assembly, energy conversion and storage, catalysis, block copolymers, and chiral polymers with optical activity. His interdisciplinary approach and innovative mindset have positioned him as a key contributor to the field of sports technology.

🏅Accolades and Recognition

Throughout his career, Maxwell James MacFarlane has received recognition for his contributions to sports technology and player safety. His research has been published in several high-impact journals, including “Lubricants by MPDI” and “Biosurface and Biotribology,” where his work on player safety and turf abrasiveness has garnered attention. These publications have significantly contributed to his citation index, reflecting the impact of his research in the scientific community.

Maxwell’s collaborations with Cardiff University, World Rugby, and Sports Labs have further cemented his reputation as a leading expert in his field. While he has not yet published books or patents, his ongoing research projects and consultancy work demonstrate his commitment to advancing knowledge and innovation in sports technology.

🌍Impact and Influence

Maxwell’s work has had a profound impact on the field of sports technology, particularly in enhancing player safety on artificial turf. His development of the SID and MTI has provided valuable tools for assessing and mitigating skin injury risks, influencing the design and optimization of artificial turf surfaces. By addressing the limitations of traditional test methods, Maxwell’s innovations have paved the way for more accurate and reliable assessments of player-surface interactions.

Maxwell’s research has also contributed to the broader understanding of impact mechanics and sliding characteristics, offering new insights into the factors that affect player safety. His work has influenced manufacturers and researchers alike, driving advancements in the design and testing of artificial turf surfaces.

🌟 Legacy and Future Contributions

Maxwell James MacFarlane’s legacy in the field of sports technology is marked by his dedication to innovation and player safety. His contributions have set new standards for assessing and mitigating skin injury risks on artificial turf, providing valuable tools and insights for researchers and manufacturers. As he continues his work at Sports Labs, Maxwell remains committed to advancing sports technology through interdisciplinary research and collaboration.

Looking ahead, Maxwell’s future contributions are poised to further enhance player safety and performance. His ongoing research projects and consultancy work will continue to drive innovation in sports technology, ensuring that athletes can perform at their best while minimizing the risk of injury. Maxwell’s dedication to improving player safety and advancing knowledge in his field will undoubtedly leave a lasting impact on the world of sports technology.

📖Publications:

Paper Title: A Novel Methodology for Simulating Skin Injury Risk on Synthetic Playing Surfaces

  • Authors:  M MacFarlane, E O’Donnell, E Harrison, M Douglas, N Lees, P Theobald
  • Journal: Lubricants
  • Year: 2024

Paper Title: A Novel Methodology for Simulating Skin Injury Risk on Synthetic Playing Surfaces

  • Authors: Skin Tribology in Sport
  • Journal: Biosurface and Biotribology
  • Year: 2021