Company Filing History:
3 out of 832,761 Years Active: 1994-1997
Title: Innovations by Simon Adrianus Hesp
Introduction
Simon Adrianus Hesp is a notable inventor based in Kingston, Canada. He has made significant contributions to the field of materials science, particularly in the development of advanced asphalt compositions. With a total of three patents to his name, Hesp's work focuses on improving the performance and safety of paving materials.
Latest Patents
Hesp's latest patents include a process for preparing rubber-modified asphalt compositions. This innovative method involves devulcanizing crumb rubber, specifically ground rubber tire, without the use of harsh oxidizing treatments or hazardous solvents. The process utilizes fractional distillation to achieve complete devulcanization at around 300 degrees Celsius, resulting in compositions that are cost-effective and exhibit better long-term aging and fatigue performance compared to traditional air-blown asphalts. Another significant patent is for in-situ stabilized compositions, where insoluble particulate materials are dispersed in a continuous non-aqueous phase. This invention has particular applications in creating stabilized polyolefin-modified bitumen compositions for paving and other uses.
Career Highlights
Throughout his career, Simon Adrianus Hesp has demonstrated a commitment to innovation in materials engineering. His patents reflect a deep understanding of the challenges in asphalt technology and a drive to create safer and more efficient solutions for the paving industry.
Collaborations
Hesp has collaborated with notable colleagues, including Zhizhong Liang and Raymond T Woodhams, to advance his research and development efforts. Their combined expertise has contributed to the successful realization of Hesp's innovative ideas.
Conclusion
Simon Adrianus Hesp's contributions to the field of asphalt technology highlight his role as a forward-thinking inventor. His patents not only improve the performance of paving materials but also prioritize health and safety in their production.