Company Filing History:
Years Active: 1978
Title: The Innovations of Peter Baumler
Introduction
Peter Baumler is a notable inventor based in Munich, Germany. He has made significant contributions to the field of materials science, particularly in the development of quartz glass elements. His innovative work has implications for the semiconductor industry, showcasing the intersection of technology and material engineering.
Latest Patents
Peter Baumler holds a patent for a method of surface crystallizing quartz. This patent describes a quartz glass element, such as a diffusion tube, which is useful in the production of semiconductor elements. The invention is capable of forming an outer layer of uniformly fine crystalline silica, such as cristobalite or tridymite, when heated to a specific temperature. This outer layer is formed with the help of crystallization promoting nuclei that have a diffusion rate in quartz glass less than that of sodium at elevated temperatures. The presence of these nuclei in the outer half of the element wall promotes the formation of the outer layer, which imparts thermal dimensional stability for extended periods of use at high temperatures.
Career Highlights
Peter Baumler is associated with Heraeus-Schott Quarzschmelze GmbH, a company known for its expertise in quartz glass production. His work at this company has allowed him to focus on innovative solutions that enhance the performance and reliability of quartz glass in various applications.
Collaborations
Throughout his career, Peter has collaborated with notable colleagues, including Gerhard Hofer and Tassilo Korner. These collaborations have contributed to the advancement of technology in the field of quartz glass and its applications.
Conclusion
Peter Baumler's contributions to the field of quartz glass innovation highlight the importance of material science in modern technology. His patent for the method of surface crystallizing quartz demonstrates a significant advancement that benefits the semiconductor industry. His work continues to influence the development of high-performance materials.