Location History:
- Ann Arbor, MI (US) (2001)
- Saline, MI (US) (2003)
Company Filing History:
Years Active: 2001-2003
Title: Innovations by Beth M Wichterman
Introduction
Beth M Wichterman is an accomplished inventor based in Saline, MI (US). She has made significant contributions to the field of thermoplastic materials, holding two patents that showcase her innovative spirit and technical expertise. Her work primarily focuses on enhancing the properties of thermoplastic olefin alloys and automotive components.
Latest Patents
Wichterman's latest patents include a thermoplastic olefin resin composition that offers improved resistance to surface impacts, such as scratching, marring, and gouging. This innovative resin comprises a blend of polyolefin alloy and polyamide components, which are designed to work together effectively. The addition of a compatibilizing agent addresses the natural incompatibility of these components, resulting in a superior material.
Another notable patent is for a method of making a soft touch automotive latch handle. This invention involves molding a latch handle from a rigid plastic and overmolding it with a softer plastic to create a comfortable gripping pad. The design ensures that the handle is both functional and user-friendly, enhancing the overall experience for automotive users.
Career Highlights
Beth M Wichterman is currently employed at Visteon Global Technologies, Inc., where she continues to innovate and develop new materials for the automotive industry. Her work has not only contributed to the advancement of thermoplastic materials but has also improved the functionality and aesthetics of automotive components.
Collaborations
Wichterman has collaborated with notable colleagues, including Arthur Single and Daniel Ryan Malwitz, to further her research and development efforts. These collaborations have allowed her to leverage diverse expertise and drive innovation in her projects.
Conclusion
Beth M Wichterman exemplifies the spirit of innovation through her patents and contributions to the automotive industry. Her work in thermoplastic materials continues to pave the way for advancements in product design and functionality.