Company Filing History:
Years Active: 2012
Title: Innovations of Manish K Tiwari in Strain Sensing Technology.
Introduction
Manish K Tiwari is an accomplished inventor based in Zurich, Switzerland. He has made significant contributions to the field of materials science, particularly in the development of advanced strain sensors. His innovative work focuses on creating lightweight and flexible sensing technologies that have practical applications in various industries.
Latest Patents
One of Tiwari's notable patents is titled "Electrospun fibrous nanocomposites as permeable, flexible strain sensors." This invention relates to methods for producing electrospun polymer/nanoparticle composite-fiber structures. These structures are designed for use as compliant and porous strain sensors, specifically for non-cyclic strain sensing. The fibers in the nanocomposites include a poly(ε-caprolactone) (PCL) dielectric polymer matrix embedded with electrically conductive carbon black (CB) nanoparticles. The composite-fiber structures contain at least 7 weight percent or more of CB, making them electrically conducting in their as-spun, un-deformed state. Notably, the electrical resistance of these nanocomposite structures increases with strain, and at sufficiently high strains, the structure becomes non-conductive.
Career Highlights
Manish K Tiwari is affiliated with the University of Akron, where he continues to advance his research in materials science and engineering. His work has garnered attention for its innovative approach to strain sensing technology, which has the potential to revolutionize how we monitor and measure strain in various applications.
Collaborations
Tiwari has collaborated with notable colleagues, including George G Chase and Alexander L Yarin. These partnerships have contributed to the development and refinement of his innovative technologies.
Conclusion
Manish K Tiwari's contributions to the field of strain sensing technology exemplify the impact of innovative thinking in materials science. His patent on electrospun fibrous nanocomposites showcases the potential for creating advanced sensing solutions that are both effective and practical.