As the article states, the new material is not made of polyester fiberglass--it replaces polyester. The new material is a glass fiber composite made with pure polyurethane, which, as stated, can last up to 50. It replaces other materials, including polyester, which degrade faster.
I am surprised that they are looking at improving a poor solution using similar materials. Shouldn't we be looking at different materials that do not have inherent water damage issues? Maybe we should look at carbon componsite or carbon fiber materials. Certainly should be materials that don't degrade from water or UV.
Polyester fiberglass material is not as waterproof as we would like, THAT is the problem. What happens is that the water does flow up around the glass fibers and something does happen causing the material to break down, losing a lot of strength and eventually falling apart. Probably the higher quality stuff takes longer to fail than the poor quality stuff. The gel-coat does definitely delay the beginning of the capilary invasion of the water, so the gel coat is quite valuable in that aspect. So it may be that the actual polyester material is waterproof, but the fiberglass material that it is part of does fail from water absorbtion. So the accusation of lying is a bit to strong. I would say that the crime would be simplification, and making assertions based on seeing evidence that is quite complex to understand.
Agree, I found this really fascinating and it's good to see materials designers trying to come up with a new way to reinforce these important protections against big sea swells. Se walls will be particularly important if climate-change predictions come to bear and storms like Sandy become more frequent, as some think they will. But just n general to bolster the materials used in sea walls seems like a timely and worthwhile thing to do.
While this sounds like a great product, the sourcesare not truthful.
Polyster is waterproof which is proven by the fact gelcoat is polyster resin as the same person also states. Water gets in layups by traveling up the glass fibers by capillary action when the fiber end is exposed to water, etc. If as he says the fiber fill is 75-80% which I seriously doubt, there are many more fibers to suck up water, etc in his resin version.
Next the 75-80% fill isn't a resin fuction but a mechanical one. resin fill depend on how much space is between fibers, not which resin as long as it's thin enough.
Sadly this looks like a good product that doesn't need such lies they are offering. It makes me wonder if one can believe anything they say.
Many of the new adhesives we're featuring in this slideshow are for use in automotive and other transportation applications. The rest of these new products are for a wide variety of applications including aviation, aerospace, electrical motors, electronics, industrial, and semiconductors.
A Columbia University team working on molecular-scale nano-robots with moving parts has run into wear-and-tear issues. They've become the first team to observe in detail and quantify this process, and are devising coping strategies by observing how living cells prevent aging.
Many of the new materials on display at MD&M West were developed to be strong, tough replacements for metal parts in different kinds of medical equipment: IV poles, connectors for medical devices, medical device trays, and torque-applying instruments for orthopedic surgery. Others are made for close contact with patients.
New sensor technology integrates sensors, traces, and electronics into a smart fabric for wearables that measures more dimensions -- force, location, size, twist, bend, stretch, and motion -- and displays data in 3D maps.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.