Company Filing History:
Years Active: 2002
Title: Inventor Joe Franklin Spangler and His Innovative Patents
Introduction
Joe Franklin Spangler, based in Westminster, MD, is an accomplished inventor recognized for his contribution to composite material technology. With a focus on enhancing methods for acoustic and laminar flow control, he has developed innovative solutions that leverage the unique properties of reinforced polymers.
Latest Patents
Spangler holds a patent for a novel "Method for Fabrication of Perforated Composite." This patent describes a unique process involving a sheet of uncured polymer, preferably reinforced with multiple layers of fiber. The sheet is staged to a rigid state at room temperature before undergoing precision drilling to create multiple apertures. These apertures, ranging in diameter from 0.025 to 0.120 inches, are specifically designed for acoustic and flow control applications. The invention also includes steps to ensure that the holes remain open during the curing process, such as sandwiching the perforated panel between layers of glass fabric and curing it on an elastomeric tool surface that expands with temperature.
Career Highlights
Joe Franklin Spangler works at Mra Systems, Inc., where he has made significant contributions to the company's research and development efforts. His innovative approach to material fabrication has garnered attention in the industry, particularly for its practical applications in various engineering fields.
Collaborations
Throughout his career, Spangler has collaborated with several notable colleagues, including Alla Ohliger and Mahendra Maheshwari. These collaborations have enriched his research endeavors and contributed to the successful development of advanced materials and fabrication methods.
Conclusion
Joe Franklin Spangler's innovative patent and collaborative spirit exemplify the essence of modern inventorship. His work at Mra Systems, Inc. and the impact of his inventions highlight the ongoing advancements in material science, contributing to more efficient acoustic and flow control solutions across various applications.