The results were published in the peer-reviewed Journal of Engineered Fibers & Fabrics, by INDA – Association of the Nonwoven Fabrics Industry. Experiments in the research were conducted by Utkarsh Sata, a co-investigator on the project.
"The basic structure is still Fibertect," Ramkumar said. "This is an improved reiteration of Fibertect. This is just two nonwoven cotton layers with the carbon in between. The cotton composite takes liquid up very quickly and can adsorb vapors more efficiently than the powdered decontaminant."
Part of the added benefit of this new Fibertect is that it contains biodegradable cotton, Ramkumar said. A problem with the powdery form is that it leaves dirty residue.
"That is why the U.S. Department of Defense wants to get away from the powdery form," he said. "Fibertect is a fabric. It is skin-friendly. When it comes to adsorbing the surrogate nerve agent's vapors, it just works better. So the powdered decontaminant will be phased out."
In 2005, Ramkumar and his team at the Institute of Environmental and Human Health (TIEHH) at Texas Tech studied the absorbent capabilities of cotton to create the Fibertect wipe that can adsorb and neutralize gases and liquids that might be used in chemical warfare.
"Fibertect contributes to our national security and helps with the safety of our first responders," Sata said.
The process to make Fibertect has received a patent and has been validated for use as a low-cost decontamination wipe for the U.S. military and the Department of Homeland Security. Also, the wipe's qualities were re-engineered to create a better absorbent material to pick up the oil slicks inundating Gulf Coast beaches following the Deepwater Horizon disaster in 2010.
Ron Kendall, a co-investigator on the project, said the creation of Fibertect began as a need to develop a decontamination wipe system for the human skin, which was a top priority for the Pentagon at the time. This has resulted now in the invention of Fibertect, a patent, and now commercialization.
"The powdered form is very difficult to handle and to apply toward decontamination purposes," Kendall said. "And it is so much easier to handle and apply toward decontamination needs than M-291 carbon system. We're learning more and more of absorption capabilities of cotton-carbon composite."
Other researchers included Eugene Wilusz of the U.S. Army Natick Soldier RD&E Center, Steve Mlynarek of the University of South Florida, and Gopal Coimbatore of Texas Tech. The research was funded in part by DoD, Cotton Inc., the International Cotton Research Center, Texas Department of Agriculture, Cotton Foundation, and The CH Foundation.
A copy of the research is available online.
TAPPI
http://www.tappi.org/