Wayne J Miller

Title: Wayne J Miller: Innovator in Cavitated Objects and Hollow Microspheres

Introduction

Wayne J Miller is a notable inventor based in Ann Arbor, MI (US). He has made significant contributions to the field of materials science, particularly in the development of methods for forming cavitated objects and hollow microspheres. With a total of 2 patents, Miller's work has implications for various applications in technology and manufacturing.

Latest Patents

Miller's latest patents include a method of forming cavitated objects of controlled dimension. This innovative method allows for the controllable variation of dimensions in cavitated objects, such as hollow spherical shells. The process involves heating a precursor shell to a temperature above its softening point in an atmosphere where the ratio of permeable to impermeable gases is significantly higher than that within the shell. As the shell expands, the equilibrium of gas partial pressures determines the final size of the shell, which is influenced by the difference in impermeable gas partial pressures and shell surface tension.

Another significant patent by Miller is related to the manufacturing of hollow microspheres of silica glass. This method focuses on creating gel powder that serves as a starting material for producing hollow glass microspheres with a high concentration of silica. The gel contains boron, alkali metals, and silicon, with specific ratios that optimize the manufacturing process.

Career Highlights

Miller's career is marked by his innovative approaches to material manufacturing and his contributions to the scientific community. His work has been recognized for its potential to enhance the efficiency and effectiveness of various industrial processes.

Collaborations

Miller has collaborated with notable colleagues, including Raymond L Downs and Paul R Anderson. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.

Conclusion

Wayne J Miller's contributions to the fields of cavitated objects and hollow microspheres demonstrate his commitment to advancing material science. His patents reflect a deep understanding of the complexities involved in manufacturing processes, making him a valuable figure in his field.