Company Filing History:
Years Active: 1999
Title: The Innovative Contributions of Jerome L. Sackman
Introduction
Jerome L. Sackman is a notable inventor based in Berkeley, California. He is recognized for his significant contributions to the field of seismic isolation technology. His innovative work focuses on protecting structures from the damaging effects of earthquakes.
Latest Patents
Sackman holds a patent for an elastomeric seismic isolation bearing and method. This invention involves a fiber-reinforced elastomeric seismic isolation bearing designed to safeguard structures and their contents during seismic events. The bearing consists of a specially designed composite material that includes an elastomer matrix embedded with high stiffness pretensioned fibers. This unique design results in a device with low horizontal stiffness compared to its vertical stiffness. The isolator is strategically mounted between the structure and its foundation, effectively decoupling the structure from harmful horizontal ground motion while allowing benign vertical motion to pass through. This innovation ensures that during an earthquake, both the structure and its contents experience minimal acceleration, velocity, and deformation.
Career Highlights
Jerome L. Sackman is associated with Energy Research Corporation, where he continues to develop and refine technologies aimed at enhancing structural safety. His work has had a profound impact on the field of earthquake engineering, providing solutions that improve the resilience of buildings in seismic zones.
Collaborations
Sackman has collaborated with notable colleagues, including Ahmad E. Javid and James M. Kelly. These partnerships have contributed to the advancement of seismic isolation technologies and have fostered innovation in the field.
Conclusion
Jerome L. Sackman's contributions to seismic isolation technology exemplify the importance of innovation in protecting structures from natural disasters. His patented elastomeric seismic isolation bearing represents a significant advancement in engineering, ensuring safety and stability during earthquakes.