Company Filing History:
Years Active: 1998
Title: Mark E Ganninger: Innovator in Selective Laser Sintering Technology
Introduction
Mark E Ganninger is a notable inventor based in Pflugerville, TX (US). He has made significant contributions to the field of additive manufacturing, particularly through his innovative work in selective laser sintering. His expertise and creativity have led to advancements that enhance the capabilities of this technology.
Latest Patents
Mark E Ganninger holds a patent for "Selective laser sintering with composite plastic material." This patent describes a composite powder specifically designed for use in selective laser sintering. The composite powder consists of a polymer powder that is dry mixed with a reinforcement powder. The polymer powder has a melting temperature that is substantially lower than that of the reinforcement powder. This innovation allows for the formation of near-fully dense parts using semi-crystalline powders like nylon 11 or porous parts using amorphous powders such as polycarbonate and polystyrene. The reinforcement powder, preferably microspheres of glass, enhances the stiffness and heat resistance of the produced parts while improving dimensional accuracy and facilitating smoother finishing.
Career Highlights
Mark E Ganninger is associated with DTM Corporation, where he has played a crucial role in advancing selective laser sintering technologies. His work has contributed to the development of materials that improve the performance and versatility of 3D printing processes.
Collaborations
Throughout his career, Mark has collaborated with notable colleagues, including Kevin P McAlea and Paul F Forderhase. These collaborations have fostered an environment of innovation and have led to significant advancements in the field.
Conclusion
Mark E Ganninger is a pioneering inventor whose work in selective laser sintering has made a lasting impact on the additive manufacturing industry. His innovative approaches to composite materials continue to shape the future of 3D printing technology.