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Nanotechnology Everywhere

US plans for research and development of nanotechnology
US investment is around 25% in research and developing nanotechnology. This amount equals the total investment from Japan, the EU and Europe. There are about 1/4 to 1/3 million papers that have been published worldwide in this area. The most important is the US Department of Defense’s (DOD), development and application in aviation and naval.

In the area of aerospace applications

For spacecraft spindle, nanocomposite coated
An innovative nanocomposite coat was applied to spacecraft shafts. After four years, no damage has been found.

Solid aluminum
Multiple plastic deformations occur in nanostructured Aluminum to make a microstructure. As a result of an increase in the dislocation density, there are many grain boundaries. A grain size of 150nm can be obtained by equal channel and angular pressing (equal channels angular pressing).
A liquid nitrogen roller compactor further crushes the powdered matter to particles of approximately 30 nanometers. Cryogenic compression is the term for this type of crushing. High thermal stability, dispersion strength, inhibition of growth of grains, and the inclusion of oxide and Nitride particles at grain boundaries.

Replace hard chrome using nano Co–P plating

Nano CooP plating technology has been developed by US Department of Defense. Nano Co-P coatings offer performance comparable to that of a thin and dense chrome layer. Its surface pattern is an agglomerate. There are no pits. The Co-P nano-coating is the tech’s developer.

  • After 1000 hours exposure the Co-P0.05 mm nanocrystalline coating performed better than EHC and HVOF.
  • A nano-CooP coating has been exposed for 1000 h. The protection rate is 8 per ASTMB537. Triballoy 4 alloy coating and HVOFWC Co coating are both 5, while hard chrome is 2 and 3.
  • Integran Nanometal co-coated composite dens can be used to produce molds.

    Aircraft Nanotechnology

    Use of nanotechnology to produce carbon nanocomposite covers is only the first step in its wide-spread application. Promote the miniaturization, or reduction, of electronic gadgets and equipment. This can also increase their efficiency and cost effectiveness. This is how nanotechnology will be applied to aerospace.

  • Space refractory plasticmers. These polymers can be used as solar sails, retractable antennas, and reflectors.
  • Layered silica polymer for living room.

  • Conductive coateds such as EMIs and ESD.
  • Used for space lifts.
  • Tiny-film organic photovoltaic solar cells.
  • Neuer nanocomposite (symbiotic/morphine for energy collection)
  • structure).
  • Use to monitor your health.

    NASA & Nanotechnology

  • The
  • Shipboard computing system is a small, powerful, low-energy, radhard-based, shipboard-based computer for the future of smart spacecraft.

  • Aesthetics provides small instruments and sensor for the analysis and identification if changing and unfamiliar backgrounds. It also allows you to adapt to harsh environments and minimize overall system impact.
  • Small satellite and micro-spacecraft. These spacecraft are equipped with nanoelectronics as well as nanosensors.
  • Nanostructured Materials for Space Rockets, Large-Section High-Intensity Spacecraft Structures, Thermal, Mechanical and Other Performance and Functional Materials, Energy Conversion Materials, Cryogenic Coolers Materials, Pre-Set Sensors and Compensation Systems that Guarantee Safety and Reliability.
  • Applications of nanotechnology in automotive industries

    Automobile industry used carbon andboron nutride nanotubes, and composite metal hydroides to create hydrogen storage tank. In addition to having twice the magnet saturation strength as ordinary magnets (nanoparticle coatings in solar cells) nanostructured magnetic magnets can also have a higher temperature. Wetchemicalroute currently is being used to produce cheap solar panels. Nanoparticles are controlled in order to create new alloys. These alloys have great properties such as the ability to reduce the amount of metal particles and increase their strength.

    SolarCoatings is a glass coating in which nanoparticles can be uniformly distributed. These nanoparticles can be found indium Tin Oxide, or ITO (abbreviated ATO), Antimagne Tin Oxide and zinc oxide. ITO can also be used in transparent antistatic and transparent solar radiation additives. It is an excellent material for window coating.

    Applications of nanotechnology in everyday and consumable products

    Aerogel

    Nano aerogel has excellent performance, can meet the functional requirements under various conditions, is translucent, has excellent heat insulation and noise reduction effect, and is a high-quality material for building and vehicle main window system (fenestrationsystem).

    Blockcopolymers

    Many chemically distinct parts make up Nanostrength Copolymer Wool. Their molecular nature allows them to be assembled in a variety of ways. By thermodynamic forces they blend highly polymerized or copolymerized sheep wool in a very repeatable and exact manner. The end result is enhanced mechanical properties. This does not alter the uniformity of supporting base metal and it makes it simpler to process.
    This copolymer assures safety and reliability in sensitive composite components such a aircraft casings. There are many applications for this copolymer, from electrical equipment to aircraft, to sporting facilities and to industrial equipment.

    Lemondedudroit, Lemondedudroit advanced material Tech Co., Ltd., is a professional producer of nanomaterials. It has more than 12 year experience in chemical products development and research. If you are interested in high quality, nanomaterials, feel free to email us .

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