Company Filing History:
Years Active: 2018
Title: Dag Nielsen: Innovator in Mineral Fiber Product Curation
Introduction
Dag Nielsen, based in Roskilde, Denmark, is an accomplished inventor recognized for his innovative contributions to the field of mineral fiber products. With one patent to his name, Nielsen has demonstrated his expertise in developing methods that enhance the manufacturing processes of these materials.
Latest Patents
Nielsen's notable patent is titled "Method of forming a cured mineral fibre product." This invention specifically details a technique involving the creation of a cured mineral fiber product that encompasses two distinct layers: a top layer consisting of uncured mineral wool and a base layer made of cured mineral wool. The process outlined in the patent describes the steps of joining these layers to form a laminate, which is then cured in a specialized oven, emphasizing efficiency and quality in production.
Career Highlights
Dag Nielsen currently works for Rockwool International A/S, a leading company specializing in innovative insulation and mineral wool solutions. His work at Rockwool has solidified his reputation as a key player in the development of advanced materials that meet industry standards and consumer needs.
Collaborations
Throughout his career, Nielsen has collaborated with Gorm Rosenberg, a fellow innovator at Rockwool International A/S. Their partnership underscores a commitment to innovation and excellence in the field of material sciences, which has significantly contributed to the advancement of mineral fiber technologies.
Conclusion
Dag Nielsen's inventive spirit and commitment to enhancing mineral fiber product applications highlight the importance of innovation in modern manufacturing. His patent represents a significant step forward in the industry, showcasing the potential for increased efficiency and effectiveness in the production of high-quality mineral products. As the fields of construction and insulation continue to evolve, inventors like Dag Nielsen will play a crucial role in shaping the future of material technology.