Company Filing History:
Years Active: 2002
Title: Ino J Rass: Innovator in Solder Braze Alloy Technology
Introduction
Ino J Rass, an inventive mind based in Aachen, Germany, has made significant contributions to the field of solder braze alloy technology. With one patent to his name, Rass is recognized for his innovative approach to enhancing the versatility of soldering methods and materials. His work is particularly relevant in applications where traditional soldering techniques face limitations due to environmental factors.
Latest Patents
Rass’s most notable patent is centered around a solder braze alloy that allows for active solder braze technology to be applied more widely. This novel alloy stands out by featuring 1-10% by weight of elements from subgroup IVa and/or Va of the Periodic Table and 0.1-20% by weight of rare earth elements. The remaining composition includes zinc, lead, tin, bismuth, or indium, which can be blended to achieve the desired properties. The invention notably allows for processing in oxygen-containing atmospheres without compromising the integrity or quality of the soldered workpieces.
Career Highlights
Rass is associated with Materials Resources International, where his expertise in materials science and engineering comes into play. His innovative developments in solder braze alloys have garnered attention in the industry due to their practical applications and advantages, such as lower processing temperatures and improved wettability, especially on challenging substrates like ceramics.
Collaborations
Throughout his career, Rass has collaborated with talented professionals in his field, including Erich Lugscheider and Frank Hillen. These partnerships have fostered a creative environment for research and development, leading to advancements in soldering techniques and materials, and enhancing the effectiveness of industrial practices.
Conclusion
Ino J Rass serves as an exemplary figure in the ongoing evolution of solder braze technology. His patent showcases the potential for innovation within the realm of material sciences, paving the way for enhanced joining methods that can withstand various environmental challenges. As the industry continues to seek reliable and efficient solutions, Rass's work exemplifies the impact of innovative thinking on practical applications.