New Nano-Materials Offer Promising Results
In many recent studies researchers have found that looking at the microscopic level for new developments in engineering has yielded excellent results. These researchers are beginning to see that materials which are readily available will behave much differently when they are restructured on a nanometer scale. These newly structured materials have applications in nearly every field of engineering, as almost all of their characteristics are altered when they are restructured. Researchers are finding uses for these nano-scale materials in everything from medical uses to the design of super-strength materials to replace steel and other alloys. Although I think it is still very importnat to concentrate on the final product, beginning the manufacturing process at this level will ultimately increase the strength and value of these products. Nanotechnology is not necessarily a brand new field of science, but it has recently received much more attention than other types of research. Originally nanotechnology was meant to help engineers reduce the size of semiconductors and other electronic devices, but it is now being used in many other fields. An article in BioTech Week discusses the use of carbon nanotubes to make new prosthetic join
Rather than completely make these prosthetic joints from nanotubes, they are still being made of their traditional material, titanium alloy, and then being coated with the tubes. Although this type of television offers many advantages to traditional analog television, the cost of manufacturing is too high to allow this technology to be used by the majority of consumers. Although it is importnat to find these new abstract ways of using nanotechnology, it is stil being developed in the fields for which it was originally designed. Researchers in this biomedical field have found a way to attatch DNA to the tubes to make them "self-assemble," making it practical to produce enough of the tubes for widescale manufacturing. "A 60 inch carbon nanotube TV will sell for less than $1,200 in full volume production. It is important for researchers to find a way to make this technology available to anyone. Not only do these joints function more naturally, but they are also accepted better by the body and thus are less painful and last much longer than traditional prosthetic joints. "[2] Current 60 inch flatpanels have an MSRP of roughly $10,000. Continued research and development will lead to new devices in all desciplines, and whether they be stronger, faster, smarter or simply less expensive, they will all prove to be very beneficial. "To really enjoy HDTV, studies have shown that the diagonal dimension must be around 80 to 100 inches. "[1] I think that this abstract view of how to use a new technology is exactly what researchers need to do. Processes currently being used to develop these devices are roughly 80% less expensive than those used for LCD and plasma development. The manufacturing of nanoscale devices is going to allow researchers to make faster, more productive and more reliable electronics. Although this technology is only beginning to be developed, it is already showing a promising future in all of its applications.
Common topics in this essay:
BioTech Week,
,
prosthetic joints,
rejection response,
carbon nanotubes,
lcd plasma,
60 inch,
readily available,
researchers technology,
joints function,
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Acceptance Essays
