Dr. Thomas Juska | Materials Science | Best Researcher Award
Dr. Thomas Juska, Applied Research Laboratory, Pennsylvania State University, United States
Publication profile
Education
Dr. Juska’s educational background includes a B.S. from Penn State University, an M.S. from the University of Massachusetts, and a Ph.D. in Polymer Science from Penn State. His extensive academic training laid the foundation for his long and impactful career in polymer science.
Work Experience
Dr. Juska has held significant positions. He began his career at NSWC – Carderock Division as a Materials Scientist and later worked at Northrop Grumman as a Research Scientist. Since 2003, he has been a Research Associate and department head at ARL Penn State, where he continues to lead functional materials development and prototype fabrication efforts.
Achievements in Polymer Science
Dr. Juska’s contributions to polymer science are impressive. He derived a generalized Hookeās Law from thermodynamics, offering a new theoretical framework for understanding Poisson’s ratio and polymer behavior. His innovative stress-induced phase transition model of plasticity in polymers has had significant impact. Additionally, his work describing amorphous polymers as heterogeneous networks of nanoscale domains has led to groundbreaking advancements in time-temperature superposition and energy loss mechanisms in polymers.
Achievements in Polymer Engineering
In polymer engineering, Dr. Juska developed the integrated breathing method for composite fabrication, which revolutionized air removal techniques in composite materials. His expertise in polyurethane elastomers and his leadership in the development of multi-functional prototypes have been crucial to various engineering projects. His innovative methods have improved composite fabrication, making it more efficient and practical.
Research Interests
Dr. Thomas Juska has a deep interest in the thermodynamics of polymer deformation, focusing on how phase transitions play a crucial role in polymer behavior. His main engineering contributions are in the development of resins, processes, and prototypes tailored for specific applications. These interests highlight his focus on advancing polymer science, particularly in understanding polymer deformation and developing practical materials.
Conclusion
Publication Top Notes
- Composite Rotating Coupling Covers ā 2015, CAMX 2015 – Composites and Advanced Materials ExpoĀ š š
- Male Molding with Oven Vacuum Bag Prepreg ā 2012, International SAMPE Technical Conference š š
- The New Infusion: Oven Vacuum Bag Prepreg Fabrication ā 2009, International SAMPE Symposium and Exhibition ā 8 citations š š
- Progress in Materials for Marine Composite Structures ā 2004, International SAMPE Symposium and ExhibitionĀ š š
- Progress in Materials for Marine Composite Structures ā 2004, International SAMPE Technical ConferenceĀ š š
- Durability Gap Analysis for Fiber-Reinforced Polymer Composites in Civil Infrastructure ā 2003, Journal of Composites for Construction ā 440 citations š š
- Pushing the Limits of VARTM ā 1998, International SAMPE Symposium and Exhibition ā 17 citations š š