Company Filing History:
Years Active: 2018
Title: Steffen Niemann: Innovator in Load-Bearing Capacity Analysis
Introduction
Steffen Niemann is a notable inventor based in Wolfsburg, Germany. He has made significant contributions to the field of engineering, particularly in the analysis of load-bearing capacities of cylindrical shells. His innovative approach addresses critical challenges in material science and structural integrity.
Latest Patents
Steffen Niemann holds a patent for a "Device for determining the load-bearing capacity of a cylindrical shell including an axial working force to the cylindrical shell and detecting failure of the cylindrical shell." This invention focuses on determining the load-bearing capacity of cylindrical shells made from composite fiber materials that are susceptible to buckling. The device utilizes a load distribution head to apply an axial force to the cylinder shell, while a dent actuator creates a dent in a predetermined direction and depth. The invention allows for the determination of a dent force when an increasing axial force is applied until complete failure of the shell is detected. An analysis unit then identifies the optimal dent depth at which the dent force reaches its maximum compared to other depths.
Career Highlights
Throughout his career, Steffen Niemann has worked with prominent organizations such as the Deutsches Zentrum für Luft- und Raumfahrt e.V. and Airbus Operations GmbH. His experience in these leading aerospace and research institutions has equipped him with the expertise necessary to innovate in the field of load-bearing capacity analysis.
Collaborations
Steffen has collaborated with notable colleagues, including Christian Huehne and Ronald Wagner. Their combined efforts have contributed to advancements in engineering and material science.
Conclusion
Steffen Niemann's work exemplifies the intersection of innovation and engineering, particularly in the analysis of load-bearing capacities. His contributions are vital for the development of safer and more efficient structural designs.