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another way to waste money

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U.S. Army bioengineer develops high-tech fabrics to keep soldiers warm, dry, and safe


At the U.S. Army Natick Soldier Research, Development & Engineering Center, the bioengineer develops high-tech fabrics for combat clothing to keep soldiers safe and comfortable and to help them be more effective in the field. The latest project on a heating textile that keeps soldiers’ extremities warm and absorbs sweat.

Why is a soldier’s clothing important?

Their life can depend on it. A soldier’s clothing needs to be catered to the environment that they are working in. For instance, one problem that paratroopers have right now is inadequate gloves. When they jump from 10,000 or 20,000 feet [3,000 or 6,000 m], their hands get so cold that they have problems with dexterity. The time it takes to get feeling back in their fingers is valuable if they need to operate weapons or machinery as soon as they land. Plus, numb fingers are just uncomfortable. Soldiers who work in Arctic conditions face this problem all the time.

We are developing a heating textile based on a silver nanowire coating to protect soldiers in extreme cold. I have found a way to coat different types of fabric by depositing a solution of nano­wires to form a continuous, conductive network. Applying a voltage to one end of the fabric makes the whole fabric heat up within seconds. We plan to apply these textiles to gloves that would heat a soldier’s hands within seconds at temperatures down to −40 °C. The silver layer is less than 100 nm thick, so it doesn’t add any weight.

We are now starting to look into power sources. We don’t want to use heavy batteries, because soldiers already carry so much weight in batteries for radios and other equipment. So we’re partnering with Sheng Xu, a professor at the University of California, San Diego, who has developed a flexible, stretchable battery that is thinner than a hair. We are trying to develop the technology and apply it to our textile.

What other high-tech fabrics are you making?

A hydrogel coating that will be incorporated into textiles to increase comfort in cold conditions. Soldiers in the Arctic have to wear so many layers of clothing that sweat accumulates in places like the shirt cuffs and neck, where it freezes because there’s no way for it to evaporate. The hydrogels would absorb that sweat, and when soldiers get back to camp or base, they can dry the garment and reuse the hydrogel.

We’re also developing textiles that detect and respond to changes in temperature. We use liquid crystals, the same material used in LCD screens. Liquid-crystal molecules change their conformation or orientation based on the temperature. The idea is to integrate them into textile fiber so that the garment protects against temperature changes. Basically, liquid crystal rearrangement would cause the pores of the textile to open to make it more breathable in a hot environment or to close if the soldier is in a cold environment.

None of these coatings would go in the entire garment. They would only go into specific zones that we know are problematic.

How do you test these high-tech fabrics and get them battle ready? When is a new clothing technology ready for a soldier to wear?

Right now, we are working with very small swatches—ranging from one inch to maybe a foot [2.5–30.5 cm]—trying to optimize our technology to make sure it works in different environments and that we can wash and reuse it. Natick has these large shipping-container-sized test chambers that can mimic any environment on Earth. We put our swatches in the chambers and adjust humidity and temperature so they mimic Arctic conditions.

After basic and applied research, we partner with industry to produce yards of this textile. Then we make garments and test them with soldiers, either in the test chambers or in Alaska. Our textile technologists, who find fabrics for specific purposes and design soldiers’ uniforms, go to our bases in Alaska and have soldiers try the garments while conducting their regular exercises. The soldiers give feedback on what they like or have problems with. It’s a continual back-and-forth process to optimize the technology until the new fabrics are ready for use. I’m an engineer, but I work closely with the textile technologists to meet the soldiers’ requirements.

All of this can take quite a few years. But right now, Special Forces are having problems with the gloves they use. They’re really trying to push silver nanowire technology, so instead of taking 10–15 years, it could take five.

At Natick, recently enlisted soldiers volunteer to help us with research. They signed up to make the country better and to protect it. These are young, new recruits in their late teens and early twenties, and they are very eager to help. As a scientist, it’s nice to see products that were created using technology from your basic lab research, especially since those products are going to help our soldiers.

Now that you have read the article that one of my readers sent to me, where it came from is unknown to me. The title is erroneous because a fabrics as described in the title does not exist, and never will!!!

The following sentence I have taken out of the article because it states that they are just testing small swatches. The rest of the article is basically pie in the sky.

“Right now, we are working with very small swatches—ranging from one inch to maybe a foot [2.5–30.5 cm]—trying to optimize our technology to make sure it works in different environments and that we can wash and reuse it”

Whatever moneys are being spent on this project will ultimately not have any success. Maybe at some point in the future the government agency charged with finding materials that will work in cold environment will come to realize that the materials specifically the insulation already exists and has proven itself for 40 plus years and counting.

The last sentence is basically wrong, because so much has come from U.S. government laboratories that not only haven’t helped the soldier but been detrimental to the soldier.

You can lead a horse to water but you can’t make the horse drink, same goes for the research labs.

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