Company Filing History:
Years Active: 1997
Title: J Scot Thompson: Innovator in Stereolithography
Introduction
J Scot Thompson is a notable inventor based in Northridge, CA (US). He has made significant contributions to the field of stereolithography, particularly through his innovative patents. With a total of 2 patents, Thompson continues to push the boundaries of technology in 3D printing.
Latest Patents
Thompson's latest patent, titled "Vibrationally Enhanced Stereolithographic Recoating," focuses on methods and apparatus for enhancing the recoating process in stereolithography. This invention involves the use of vibrational energy to improve the formation of a thin layer of building material over a previously completed layer of a three-dimensional object. The process is designed to prepare the object for the addition of further layers. In one preferred apparatus, vibration is induced into the material's surface using a series of vibrating needles that penetrate just below the working surface. This ensures effective coupling without damaging the partially completed part. Another apparatus couples vibration directly to the object support, transmitting energy through the part to the building material's surface. The methods described in the patent allow for both reducing and increasing coating thickness, depending on whether the object is overcoated or undercoated.
Career Highlights
Thompson is currently employed at 3D Systems, Inc., a leading company in the 3D printing industry. His work there has been instrumental in advancing stereolithographic techniques and enhancing the capabilities of 3D printing technologies.
Collaborations
Some of Thompson's notable coworkers include Paul F Jacobs and Hop D Nguyen. Their collaboration has contributed to the innovative environment at 3D Systems, Inc.
Conclusion
J Scot Thompson's contributions to the field of stereolithography through his patents and work at 3D Systems, Inc. highlight his role as a key innovator in the industry. His advancements in vibrationally enhanced recoating processes are paving the way for future developments in 3D printing technology.