Company Filing History:
Years Active: 1999
Title: Innovations by Darrel L. Schindler: Pioneering Impact-Resisting Glazing Structures
Introduction
Darrel L. Schindler is an accomplished inventor based in Wilmington, DE, known for his work in developing advanced materials and construction techniques. His contributions to the field of glazing technology have been significant, particularly through his innovative approach to impact-resisting structures.
Latest Patents
Darrel holds a patent for an "Impact-resisting glazing structure." This groundbreaking invention features a support frame that secures a multilayered composite. The composite consists of two sheets of glass, which are spaced apart by an interior spacer along the periphery. Notably, it incorporates a polyester film that is adhered to the interior surface of one of the glass sheets. The unique characteristic of this film lies in its asymmetric orientation of crystals and molecules, leading to a specific in-plane distribution of crystalline and amorphous phases. The arrangement allows the (100) planes of the crystals to lie in the film plane, with chain axes oriented toward the transverse direction, thereby enhancing the dominant physical properties in that direction.
Career Highlights
Darrel L. Schindler is affiliated with E.I. du Pont de Nemours and Company, an organization renowned for its innovation in materials science and specialty products. His work within this esteemed company underscores his commitment to pushing the boundaries of technology and design, particularly in glazing applications.
Collaborations
Throughout his career, Darrel has collaborated with notable colleagues like Charles Anthony Smith and Ramesh Mohanlal Gohil. These partnerships reflect a cooperative spirit in the realm of research and development, enabling the combined expertise of talented individuals to yield exceptional results in the field of impact-resisting materials.
Conclusion
Darrel L. Schindler's work on impact-resisting glazing structures exemplifies the innovative spirit inherent in the field of materials science. His contributions not only enhance safety in architectural applications but also demonstrate the potential for new technological advancements in glazing solutions. As inventions like his continue to evolve, they pave the way for safer, more resilient structures in the future.