Company Filing History:

9 out of 604

Drexel University

patents

9 out of 8,684

US Government As Represented by the Secretary of the Army

patents

where one patent can have more than one assignee

Years Active: 2008-2016

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10 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 9394427 - Toughening cross-linked thermosets (2016-07-19),

2. 9102807 - Toughening cross-linked thermosets (2015-08-11),

3. 8785547 - Toughening cross-linked thermosets (2014-07-22),

4. 8372926 - Fatty acid monomers to reduce emissions and toughen polymers (2013-02-12),

5. RE43983 - Multi-modal vinyl ester resins (2013-02-04),

6. 8211967 - Composite repair resins containing minimal hazardous air pollutants and volatile organic compound (2012-07-03),

7. 8048949 - Composite repair resins containing minimal hazardous air pollutants and volatile organic compound (2011-11-01),

8. 7730839 - Interfacial stress reduction and load capacity enhancement system (2010-06-08),

9. 7524909 - Fatty acid monomers to reduce emissions and toughen polymers (2009-04-28),

10. 7449525 - Multi-modal vinyl ester resins (2008-11-11),

Title: Innovations of James Matthew Sands

Introduction

James Matthew Sands is a notable inventor based in Kingsville, MD (US). He holds a total of 10 patents, showcasing his significant contributions to the field of materials science. His work primarily focuses on the development of advanced resin systems that enhance performance while reducing environmental impact.

Latest Patents

One of his latest patents involves the toughening of cross-linked thermosets through the use of grafted triglycerides. This innovative method includes an acrylated triglyceride grafted with a fatty acid residue containing 4 to 28 carbon atoms. The patent describes methods for creating a grafted triglyceride and curing materials selected from vinyl esters and unsaturated polyesters, along with optional reactive diluents. The process involves mixing the grafted triglyceride with these materials to form a mixture, which is then cured to produce a durable resin system. This system not only includes a cured product but also composites that contain fillers or reinforcing materials. Notably, this method allows for the creation of toughened resin and composite systems that reduce hazardous air pollutants without significantly lowering the glass transition temperature or increasing viscosity.

Career Highlights

Throughout his career, James Matthew Sands has worked with prestigious institutions, including Drexel University and the U.S. Government as represented by the Secretary of the Army. His experience in these organizations has contributed to his expertise in developing innovative materials and processes.

Collaborations

James has collaborated with notable colleagues such as Giuseppe Raffaello Palmese and John Joseph La Scala. Their combined efforts have further advanced the research and development of new materials in the field.

Conclusion

James Matthew Sands is a distinguished inventor whose work in toughening cross-linked thermosets has made a significant impact on materials science. His innovative approaches continue to pave the way for advancements in resin systems and environmental sustainability.

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