Maya Fishkis

Title: Innovations of Maya Fishkis in Aluminum Matrix Composites

Introduction

Maya Fishkis is an accomplished inventor based in Plum Boro, Pennsylvania. She has made significant contributions to the field of materials science, particularly in the development of aluminum matrix composites. With a total of two patents to her name, her work focuses on enhancing the properties of aluminum through innovative methods.

Latest Patents

Maya's latest patents include a method for creating a fiber reinforced aluminum matrix composite with improved interfacial properties. This method involves wetting and bonding refractory alumina or aluminosilicate fibers with molten aluminum or aluminum alloys by forming a boron oxidized interface. The process consists of several steps, including coating alumina fibers with a thermally decomposable precursor of boron oxide, heating the coated fibers to form boron oxide, and subsequently forming a composite with aluminum metal or an aluminum alloy.

Another notable patent is her method for increasing the wettability of aluminum metal to alumina. This aluminum alloy matrix composite contains alumina or aluminum silicate reinforcement, which exhibits enhanced wetting between the reinforcement and the aluminum alloy. The composite comprises alumina or aluminosilicate reinforcement, a matrix of aluminum or aluminum alloy, and an interlayer of mixed oxides of aluminum and boron at the interface.

Career Highlights

Maya Fishkis is currently employed at the Aluminum Company of America, where she continues to innovate in the field of materials science. Her work has garnered attention for its potential applications in various industries, including aerospace and automotive.

Collaborations

Maya collaborates with talented coworkers such as Chanakya Misra and Karl Wefers, contributing to a dynamic research environment that fosters innovation and creativity.

Conclusion

Maya Fishkis is a pioneering inventor whose work in aluminum matrix composites is shaping the future of materials science. Her innovative patents demonstrate her commitment to advancing technology and improving the performance of aluminum-based materials.