Kristiina Haasmaa

Title: Exploring the Innovations of Kristiina Haasmaa: A Trailblazer in Polymer Science

Introduction: Kristiina Haasmaa is an accomplished inventor based in Espoo, Finland, who has made significant contributions to the field of polymer science. With her innovative approach to creating a hydrophobic polymer dispersion, she has developed a unique solution that has potential applications across various industries.

Latest Patents: Kristiina Haasmaa holds a patent titled "Hydrophobic Polymer Dispersion and Process for the Preparation Thereof." This invention introduces a solvent-free process for producing a hydrophobic polymer dispersion that includes starch ester and various dispersion admixtures. The method involves first creating a plasticized polymer blend, which is then mixed with admixtures and water at elevated temperatures to form a stable dispersion. This versatile dispersion can be utilized for coating paper or board, serving as a primer, or in adhesive applications, as well as for producing cast films and acting as a binder in cellulose fiber materials.

Career Highlights: Throughout her career, Kristiina has shown a commitment to advancing polymer technology. Working with Oy Polymer Corex Kuopio Ltd., she has been instrumental in pushing the boundaries of innovation in her field. Her work has not only resulted in her patent but has also established her as a key figure in the development of eco-friendly materials.

Collaborations: Kristiina collaborates with notable colleagues Timo Petteri Paronen and Arto Olavi Urtti. These partnerships have fostered an environment for creativity and innovation, leading to the advancement of projects that impact the polymer industry positively.

Conclusion: Kristiina Haasmaa's innovative contributions to polymer science, exemplified by her patented hydrophobic polymer dispersion, highlight her role as a leading inventor in Finland. Her work with Oy Polymer Corex Kuopio Ltd. and collaborations with talented colleagues showcase her dedication to developing sustainable and effective polymer solutions. Looking ahead, her continued efforts will undoubtedly influence the future of this field.