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E-materials are used in aerospace technology, e.g. as laminated multi-chip modules in Iridium and Globalstar satellites, as heat sinks, and in avionics of F-22 Raptor, F-16 Fighting Falcon, F/A-18 Hornet, and the Joint Strike Fighter. [2] It is also used in SEM-E modules and printed wiring boards. Care has to be taken during machining and ...
E-beam processing is also used to cross-link polymers to make them more resistant to thermal, mechanical or chemical stresses. E-beam processing has been used for the sterilization of medical products and aseptic packaging materials for foods, as well as disinfestation, the elimination of live insects from grain, tobacco, and other unprocessed ...
Material degradation often used in the recycling of materials, Sterilization of medical and pharmaceutical goods. [4] Nanotechnology is one of the fastest-growing new areas in science and engineering. Radiation is early applied tool in this area; arrangement of atoms and ions has been performed using ion or electron beams for many years.
The process takes place under vacuum, which makes it suited to manufacture parts in reactive materials with a high affinity for oxygen, e.g. titanium. [3] The process is known to operate at higher temperatures (up to 1000 °C), which can lead to differences in phase formation though solidification and solid-state phase transformation .
E Ink Screen updating, slowed to 25% of real time. E Ink (electronic ink) is a brand of electronic paper (e-paper) display technology commercialized by the E Ink Corporation, which was co-founded in 1997 by MIT undergraduates JD Albert and Barrett Comiskey, MIT Media Lab professor Joseph Jacobson, Jerome Rubin and Russ Wilcox.
Materials, which atoms and molecules form constituents in the nanoscale (i.e., they form nanostructures) are called nanomaterials. Nanomaterials are the subject of intense research in the materials science community due to the unique properties that they exhibit. Nanostructure deals with objects and structures that are in the 1 – 100 nm range ...
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Certain organic semiconductors can also present both p-type and n-type (i.e., ambipolar) characteristics. [38] Such technology allows for the fabrication of large-area, flexible, low-cost electronics. [39] One of the main advantages is that being mainly a low temperature process compared to CMOS, different type of materials can be utilized.