Company Filing History:
Years Active: 2006-2008
Title: Innovations and Achievements of Inventor Allison L. Antink
Introduction
Allison L. Antink, based in Bolingbrook, Illinois, is a distinguished inventor known for her advancements in construction materials. With a total of three patents to her name, Antink has made significant contributions toward enhancing the structural integrity and versatility of construction materials used today.
Latest Patents
Among her latest innovations is a groundbreaking structural material that features a polystyrene base combined with a reaction product involving solid phosphate ceramic. This innovative material is applied as a slurry, which includes various metal oxides or metal hydroxides paired with a source of phosphate, resulting in the creation of a phosphate ceramic. The inclusion of polyacrylic acid or its salts, alongside polystyrene or magnesium oxide, allows the material to chemically bond effectively to the polystyrene base once cured. The method for applying this slurry to the polystyrene base is also a key aspect of her recent patents, demonstrating her commitment to improving construction techniques.
Career Highlights
Throughout her career, Allison L. Antink has worked with renowned institutions, including the University of Chicago and Argonne National Laboratory, where she honed her skills and collaborated with leading professionals in her field. Her work at these prestigious organizations has facilitated the development of innovative solutions in materials science.
Collaborations
Antink has partnered with notable individuals such as Arun S. Wagh, a respected coworker who shares her passion for innovation. Together, they have contributed to advancements in material technology, further enhancing the applications of polystyrene in construction.
Conclusion
Allison L. Antink's contributions to the field of construction materials are commendable and highlight her role as a notable inventor. With her three patents, her innovative methods and materials continue to influence the industry, paving the way for future advancements in building technologies. Her work not only exemplifies ingenuity but also showcases the importance of collaboration in driving progress within scientific research and innovation.