Company Filing History:
Years Active: 1990-1994
Title: Innovations of Timothy T Hannigan
Introduction
Timothy T Hannigan is a notable inventor based in Basking Ridge, NJ (US). He has made significant contributions to the field of photopolymer technology, holding a total of 2 patents. His work focuses on developing innovative materials that enhance the quality of lithographic printing processes.
Latest Patents
Hannigan's latest patents include two key inventions. The first is a "Photopolymerizable, negative working, peel developable, single sheet." This invention relates to negative working photopolymerizable sheet constructions that can accurately reproduce images upon exposure to an actinic radiation source. This construction is particularly useful as a color proofing film, allowing for precise predictions of image quality in lithographic printing. The image development process is achieved through peel-apart processing.
The second patent is titled "Preparation of receiver sheet materials for peel developable, single." This invention involves positive-working, photopolymerizable sheet constructions that, when exposed to an actinic radiation source, can reproduce images on conventional paper with an adhesive layer pretreatment. This construction serves as a peel-apart color proofing film, also aimed at accurately predicting image quality from lithographic printing processes.
Career Highlights
Timothy T Hannigan is associated with Hoechst Celanese Corporation, where he has been able to apply his innovative ideas in a collaborative environment. His work has contributed to advancements in the field of photopolymer technology.
Collaborations
Hannigan has worked alongside notable colleagues such as Stephan J Platzer and Wojciech A Wilczak. Their collaborative efforts have furthered the development of innovative solutions in their field.
Conclusion
Timothy T Hannigan's contributions to photopolymer technology through his patents demonstrate his commitment to innovation in the printing industry. His work continues to influence the quality and efficiency of lithographic processes.