Alexander E Shapiro

Title: Innovations of Alexander E Shapiro in Titanium Matrix Composites

Introduction

Alexander E Shapiro is a notable inventor based in Upper Arlington, OH (US). He has made significant contributions to the field of materials science, particularly in the development of titanium matrix composites. His innovative work focuses on enhancing the mechanical properties of materials for various applications.

Latest Patents

Shapiro holds a patent for "Fully-dense discontinuously-reinforced titanium matrix composites and method for manufacturing the same." This invention is designed for the production of flat or shaped titanium matrix composite articles that exhibit improved mechanical properties. These composites are suitable for lightweight plates and sheets used in aircraft and automotive applications, heat-sinking lightweight electronic substrates, and bulletproof structures for vests, partition walls, and doors. Additionally, the invention can be applied in sporting goods such as helmets and golf clubs. The fully-dense discontinuously-reinforced titanium matrix composite (TMMC) material consists of a titanium or titanium alloy matrix, ceramic and/or intermetallic hard particles, and complex carbide- and/or silicide particles.

Career Highlights

Shapiro is associated with Advance Material Products, Inc., where he continues to innovate in the field of advanced materials. His work has led to the development of near-full density near-net shape parts from titanium matrix composite materials, achieving acceptable mechanical properties without the need for hot deformation.

Collaborations

Some of his notable coworkers include Volodymyr A Duz and Vladimir S Moxson, who have collaborated with him on various projects related to advanced materials.

Conclusion

Alexander E Shapiro's contributions to the field of titanium matrix composites demonstrate his commitment to innovation and excellence in materials science. His patented inventions have the potential to revolutionize various industries by providing lightweight and durable solutions.