Company Filing History:
Years Active: 1991-2003
Title: The Innovative Contributions of David Z Remba
Introduction
David Z Remba is a notable inventor based in Studio City, California. He has made significant contributions to the field of three-dimensional printing technology. With a total of 6 patents to his name, Remba has been instrumental in advancing the capabilities of stereolithography systems.
Latest Patents
One of Remba's latest patents is a method and apparatus for the production of high-resolution three-dimensional objects by stereolithography. This improved system generates three-dimensional objects by creating a cross-sectional pattern at a selected surface of a fluid medium. The fluid medium can alter its physical state in response to synergistic stimulation, such as impinging radiation, particle bombardment, or chemical reactions. The information defining the object is specially processed to reduce curl and distortion while increasing resolution, strength, accuracy, speed, and economy of reproduction. This innovative approach allows for the automatic formation and integration of successive adjacent laminae, resulting in a step-wise laminar buildup of the desired object. Ultimately, a three-dimensional object is formed and drawn from a substantially planar surface of the fluid medium during the forming process.
Career Highlights
David Z Remba is currently associated with 3D Systems, Inc., a leading company in the field of 3D printing technology. His work has significantly impacted the industry, particularly in enhancing the precision and efficiency of stereolithography systems.
Collaborations
Remba has collaborated with notable figures in the field, including Charles W Hull and Stuart T Spence. These collaborations have further enriched his contributions to the advancements in three-dimensional printing technology.
Conclusion
David Z Remba's innovative work in stereolithography has paved the way for advancements in three-dimensional printing. His patents reflect a commitment to improving technology and enhancing the capabilities of 3D printing systems.