James Joseph Wiltzius

Title: The Innovative Mind of James Joseph Wiltzius

Introduction

James Joseph Wiltzius, based in Ogden, UT, is an accomplished inventor with a significant contribution to the field of absorbent materials. With one patent to his name, he has developed a unique approach to fiber web formation that enhances the efficiency of composite products. His work primarily focuses on the creation of individual fibrous sections that can be used in various applications.

Latest Patents

The standout patent by Wiltzius is titled "Side-by-side absorbent pad forming". This invention presents a distinctive method and apparatus for forming a composite fibrous web. The patented technology comprises a web supply that provides appointed fiber layer sections of desired fiber material. Notably, the fiberizer disintegrates these layers into individual fiber streams while maintaining their lateral separation during movement. The forming chamber is designed to preserve this separation, ensuring the production of distinct fibrous web sections before integration into a composite fibrous web.

Career Highlights

James Joseph Wiltzius is affiliated with Kimberly-Clark Worldwide, Inc., where he has been instrumental in advancing the company's capabilities in absorbent products. His innovative patent is a testament to his engineering prowess and his dedication to improving manufacturing processes in the industry.

Collaborations

Throughout his career, Wiltzius has worked alongside talented individuals such as James George Van Himbergen and Thomas George Olsen. These collaborations have undoubtedly enriched his experience and fostered an environment of creativity and innovation, contributing to the development of his impressive patent.

Conclusion

James Joseph Wiltzius stands out as a creative inventor whose work in the realm of absorbent pad forming is vital for advancing the manufacturing processes in the industry. His contributions at Kimberly-Clark Worldwide, Inc. and collaborations with other skilled professionals demonstrate his commitment to fostering innovation. The unique methodology he has developed will likely continue to influence the future of composite fibrous materials.