Company Filing History:
Years Active: 2005
Title: Scott W. Nicora: Innovator in Extrusion Technology
Introduction
Scott W. Nicora is a notable inventor based in St. Petersburg, FL (US). He has made significant contributions to the field of extrusion technology, particularly with his innovative approach to producing tubing with variable wall thickness. His work has implications for various applications, including medical devices.
Latest Patents
Scott W. Nicora holds a patent for an "Apparatus for extruding tubing having a variable wall thickness." This extruder apparatus and method allow for the production of extruded tubing with varying inner dimensions while maintaining consistent outer dimensions. The design features an extrusion head equipped with an extruder die and an internal mandrel that determines the outer and inner dimensions of the tubing. The user can adjust the outer dimensions of the mandrel to change the inner dimensions of the extruded tubing. Additionally, a pressure is maintained within the tubing to prevent collapse, with adjustments made based on changes to the mandrel's external dimensions and the tubing's wall thickness. In one embodiment, the mandrel consists of a core and multiple telescoping sleeves, which can be moved between retracted and extended positions. This design is particularly useful in applications such as multi-lumen catheters.
Career Highlights
Scott W. Nicora is associated with Ndh Medical, Inc., where he continues to innovate in the field of medical technology. His work has been instrumental in advancing the capabilities of extrusion processes, which are critical in the manufacturing of medical devices.
Collaborations
Scott collaborates with Geary A. Havran, contributing to the development of innovative solutions in their field. Their partnership enhances the potential for breakthroughs in extrusion technology.
Conclusion
Scott W. Nicora's contributions to extrusion technology, particularly through his patented apparatus, demonstrate his commitment to innovation in the medical field. His work continues to influence the design and manufacturing of critical medical devices.