Company Filing History:
Years Active: 2023
Title: Dishen Patel: Innovator in Composite Materials
Introduction
Dishen Patel is a notable inventor based in Edison, NJ (US). He has made significant contributions to the field of composite materials, particularly through his innovative methods of forming cured composite materials. His work focuses on optimizing the pH levels in composite materials, which has implications for various applications in construction and materials science.
Latest Patents
Dishen Patel holds a patent titled "Methods of forming cured composite materials with optimized pH and related compositions and systems." This patent describes a method of producing a carbonated composite material. The process includes providing a carbonatable cementitious material in particulate form, mixing it with water to create a mix, and forming a predetermined shape with this mix. The method emphasizes the importance of the initial pore structure and the pH levels during the carbonation process, ensuring that the difference between the initial and modified pH is 1.0 or less. This innovative approach enhances the properties of composite materials, making them more effective for various uses.
Career Highlights
Dishen Patel is currently employed at Solidia Technologies, Inc., where he continues to develop and refine his innovative methods. His work at Solidia Technologies focuses on sustainable construction materials, contributing to the advancement of eco-friendly building practices. With a patent portfolio that includes 1 patent, Patel is recognized for his expertise in composite materials.
Collaborations
Dishen has collaborated with notable colleagues such as Anuj Seth and Jitendra Jain. Their combined efforts in research and development have furthered the understanding and application of composite materials in various industries.
Conclusion
Dishen Patel is a pioneering inventor whose work in composite materials is shaping the future of sustainable construction. His innovative methods and dedication to optimizing material properties are making a significant impact in the field.