Philip Alexander Morton

Title: Innovations of Philip Alexander Morton

Introduction

Philip Alexander Morton is a notable inventor based in El Paso, TX (US). He has made significant contributions to the field of additive manufacturing, particularly in the development of methods for producing high-quality aluminum alloys and functionally graded structures. With a total of 2 patents, his work is paving the way for advancements in manufacturing technologies.

Latest Patents

Morton's latest patents include a "Method and system for powder bed fusion additive manufacturing of crack-free aluminum alloys." This patent presents a method of forming a crack-free aluminum alloy structure using additive manufacturing. The process involves heating a powder bed of precursor aluminum alloy powder, allowing for the formation of a crack-free aluminum alloy structure within a laser powder bed fusion system. Another significant patent is the "Method and system for producing functionally graded structures in powder bed fusion processing." This innovation comprises new design procedures that can be implemented for additive manufacturing technologies. It involves evaluating stress concentration sites using finite element analysis and implementing scanning strategies during fabrication to improve performance by spatially adjusting thermal energy at potential failure sites or high-stress regions of a part.

Career Highlights

Philip Alexander Morton is affiliated with the University of Texas System, where he continues to contribute to research and development in additive manufacturing. His work is characterized by a focus on enhancing the quality and performance of manufactured components through innovative techniques.

Collaborations

Morton has collaborated with notable colleagues such as Ryan B Wicker and Jorge Mireles, who share his passion for advancing manufacturing technologies.

Conclusion

Philip Alexander Morton is a distinguished inventor whose work in additive manufacturing is making a significant impact in the field. His innovative patents and collaborations highlight his commitment to improving manufacturing processes and materials.