Company Filing History:
5 out of 620 
4 out of 4 
1 out of 1 Years Active: 1998-2020
Title: Innovations of James K Mikulak in Additive Manufacturing
Introduction
James K Mikulak is a prominent inventor based in Austin, TX (US), known for his contributions to the field of additive manufacturing. He holds a total of 10 patents, showcasing his innovative approach to technology and materials.
Latest Patents
Mikulak's latest patents include a groundbreaking invention titled "Core/shell filament for use with extrusion-based additive manufacturing system." This patent describes a consumable filament designed for extrusion-based additive manufacturing systems. The filament consists of a core portion made from a first thermoplastic material and a shell portion made from a second thermoplastic material that differs compositionally from the first. This unique configuration allows the filament to be melted and extruded, forming roads of solidified layers that retain cross-sectional profiles corresponding to both the core and shell portions. Another significant patent is the "Additive manufacturing method for building three-dimensional objects with core-shell arrangements, and three-dimensional objects thereof," which further explores the capabilities of this innovative filament in creating complex three-dimensional objects.
Career Highlights
Throughout his career, James K Mikulak has worked with notable companies such as Stratasys, Inc. and Structured Polymers, Inc. His experience in these organizations has significantly contributed to his expertise in additive manufacturing technologies.
Collaborations
Mikulak has collaborated with esteemed professionals in the field, including Carl Robert Deckard and Robert L Zinniel. These collaborations have likely enriched his work and led to further advancements in his inventions.
Conclusion
James K Mikulak's innovative contributions to additive manufacturing, particularly through his patented technologies, highlight his significant role in advancing this field. His work continues to influence the development of new materials and methods in 3D printing.