Company Filing History:
1 out of 832,961 Years Active: 2025
Title: Michael Baranowski: Innovator in 3D Printing Technology
Introduction
Michael Baranowski is a notable inventor based in Karlsruhe, Germany. He has made significant contributions to the field of 3D printing, particularly in the integration of functional fibers into workpieces. His innovative approach enhances the capabilities of additive manufacturing processes.
Latest Patents
Michael Baranowski holds a patent for a method and devices for integrating functional fibers into a workpiece during a selective laser sintering process and an FDM 3D printing process. This patent describes a process that embeds functional fibers in a workpiece during selective laser sintering. In one variant of the process, parts of a powder layer are sintered before the insertion process, utilizing a laser beam. A heating device subsequently re-melts the already melted workpiece parts. Through a channel in the heating device, the functional fiber is fed to the melt or melt-like mass by means of a feed device and inserted at the insertion point. The movement of the heating device causes the melted area to cool and solidify, incorporating the inserted functional fiber. This innovative method can also be applied to objects created through injection molding or other additive manufacturing processes.
Career Highlights
Throughout his career, Michael Baranowski has demonstrated a commitment to advancing 3D printing technology. His work has led to the development of new methods that improve the functionality and versatility of printed objects. His patent reflects his expertise and innovative thinking in the field.
Collaborations
Michael has collaborated with notable colleagues, including Benedikt Burchard and Jürgen Fleischer. Their combined efforts contribute to the advancement of technology in the realm of 3D printing.
Conclusion
Michael Baranowski is a pioneering inventor whose work in integrating functional fibers into 3D printing processes showcases his innovative spirit. His contributions are paving the way for future advancements in additive manufacturing technology.