Company Filing History:
Years Active: 2022
Title: Ingo Steinke: Innovator in Fiber Composite Technology
Introduction
Ingo Steinke is a notable inventor based in Breitenbrunn, Germany. He has made significant contributions to the field of fiber composite technology, particularly through his innovative patent. His work exemplifies the intersection of engineering and material science, showcasing the potential of composite materials in various applications.
Latest Patents
Ingo Steinke holds a patent for a fiber composite member and the method for producing it. This invention includes an elongate main member and a fastening portion located at one end. The fastening portion features a fastening opening that allows the fiber composite member to be securely attached to adjacent components. The design incorporates a reinforcement fiber bundle, which serves as the fiber reinforcement for both the elongate main member and the fastening portion. Notably, the first and second reinforcement fibers run parallel in the elongate main member, while they intersect in the transition region between the two parts, enhancing the structural integrity of the composite member.
Career Highlights
Ingo Steinke is associated with Bayerische Motoren Werke Aktiengesellschaft, commonly known as BMW. His role at this prestigious company allows him to apply his innovative ideas in a practical setting, contributing to the advancement of automotive technologies. His expertise in fiber composites is particularly valuable in the development of lightweight and durable components for vehicles.
Collaborations
Ingo has collaborated with talented colleagues such as Richard Gralka and Thomas Hogger. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Ingo Steinke's contributions to fiber composite technology highlight his innovative spirit and dedication to advancing engineering solutions. His patent reflects a significant step forward in the use of composite materials, demonstrating the potential for improved performance in various applications.