Company Filing History:
Years Active: 1989
Title: Innovations in Textile Dyeing by Robert S. Craycroft
Introduction
Robert S. Craycroft is a notable inventor based in Sophia, NC (US), recognized for his contributions to the textile industry. He holds 2 patents that focus on innovative dyeing processes for synthetic fabrics. His work has significantly advanced the methods used in dyeing textiles, particularly polyester and nylon.
Latest Patents
Craycroft's latest patents include a "Process for rapid dyeing from entrained compositions of high-boiling" and a "Method for dyeing in high-boiling nonionic solvents." The first patent describes a technique where textile fabrics are continuously dyed using a non-aqueous dye composition at elevated temperatures in an air atmosphere. This method allows for effective dyeing without the need for non-reactive environments or inert temperatures. The second patent outlines a process for dyeing textiles in an organic medium containing a high-boiling, nonionic solvent, which facilitates dye penetration and shortens the dyeing process. This innovative approach enables uniform coloring of the fabric while avoiding shade variations.
Career Highlights
Robert S. Craycroft has made significant strides in his career at Burlington Industries, Inc. His expertise in textile dyeing has positioned him as a key figure in the industry. His patents reflect a deep understanding of the challenges faced in dyeing synthetic fabrics and offer practical solutions that enhance efficiency and quality.
Collaborations
Craycroft has collaborated with notable coworkers, including Tina V. Lorenzo and John H. Hansen. Their combined efforts have contributed to the development of advanced dyeing techniques that benefit the textile manufacturing process.
Conclusion
Robert S. Craycroft's innovative work in textile dyeing has paved the way for more efficient and effective methods in the industry. His patents demonstrate a commitment to improving textile processing and highlight his role as a leading inventor in this field.