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It looks ordinary, like a razor-thin metal ribbon. But the high-temperature superconductor power transmission cable the Long Island Power Authority recently installed in Ronkonkoma revolutionizes how electricity is delivered, utility and federal officials said. The cable -- which is a fraction of the size of a traditional copper wire but can carry three times the power -- made its ceremonial debut yesterday with officials from LIPA, the U.S. Department of Energy and officials from the company that makes the cable. It went online April 22, the world's first use of the new technology in a commercial power grid. Utilities around the world are looking at superconductivity to improve efficiency of their grids and make them less vulnerable to blackouts. LIPA has buried three 2,000-foot wires in its right-of-way, and it will be installing a second generation of the wire in the same area as a test. "We view superconductor power cables as an important option that will help us further enhance the reliability of our grid as we meet our customers' increasing demands for electric power," LIPA chief executive Kevin Law said. He said the new cable allows the utility to increase capacity where its system has bottlenecks while increasing reliability and longevity and lowering costs. The wire, manufactured by American Superconductor Corp., conducts 150 times the electricity of the same sized copper wires, strand-for-strand. This means transmission cables can be far smaller and still conduct as much as three to five times more power in a smaller right-of-way.

""We have developed several new solutions, which can provide clear weight and cost saving opportunities to manufacturers of such commercial vehicles as trucks, buses as well as agricultural, industrial and construction equipment", stated Dr Andreas Brand, member of Leoni AG's Management Board with responsibility for the Wiring Systems Division. "We are confident that we will grow our business with the CV industry by more than five per cent per year until 2025." Alternative conductors save weight and cost In terms of weight optimisation, Leoni can reduce the harnesses' weight by replacing conventional wires. Alongside copper wires with smaller cross-sections, the Company provides the CV market with a range of wires made of aluminium for the power segment, i.e. with a cross-section between 10 mm2 and 110 mm2 and even larger. Although the aluminium conductors have a larger cross-section in order to deliver the same electrical conductivity, aluminium technology results in a noticeable weight reduction. On its booth, Leoni will show its busbar, a solid aluminium conductor, which can be bent in three dimensions and weighs only about half as much as the conventional copper component. Leoni will also show various conductor solutions based on copper. These can be used where mechanical strength as well as electrical conductivity is required. For example, a copper wire with a cross-section of 0.75 mm² could potentially be replaced by a smaller wire cross section, such as a 0.50 mm² or a 0.35 mm². Thanks to the use of less conductor material, Leoni's customers can not just reduce the weight of their vehicles, but also benefit in terms of cost savings."

"The use of copper - which is much cheaper and more abundant - as an alternative electrode material to silver would dramatically reduce the cost of these nanowire materials. Despite these advantages, copper nanowire conductors face a serious bottleneck for future practical use in flexible and stretchable optoelectronics: although they are nearly as conductive as silver, this conductivity is not stable. Researchers have now demonstrated conductive copper nanowire elastomer composites with ultrahigh performance stability against oxidation, bending, stretching, and twisting. This material offers a promising alternative as electrodes for flexible and stretchable optoelectronics. "

Nano-graphene platelets (NGPs) have high Young's modulus, high thermal conductivity (five times that of copper), electrical conductivity similar to copper, and are said to be 50 times stronger than steel.\n

"According to Sunderland and Davis, the benefits of combining thermally conductive Makrolon® TC8030 polycarbonate with polyurethane encapsulation technology utilizing Bayflex® polyurethane reaction injection molding (RIM) technology include: reducing the bill of materials increasing manufacturing flexibility, and reducing the weight for many electronic components"

"The global market for conductive inks is estimated at >$2.5 billion in annual revenues and will continue to grow as applications proliferate in sensors, wearables, smart packaging, flexible electronics, OLEDs, thin-film transistors, photovoltaics, smart textiles, automotive and more."

Superconductor cables, only recently available for utility applications, uniquely solve these issues. A single distribution voltage superconductor cable can carry amounts of power normally associated with transmission voltage levels, therefore eliminating the need for multiple cables and greatly simplifying placement issues. Superconductor cables also have a unique dual-personality; under normal conditions they conduct power very efficiently, but during faults they actually limit the amount of current that can flow through them. This eliminates the risk of substation equipment damage from excessively high fault currents when paralleling substations. The installation of superconductor cable-powered bus ties between distribution substations serve as an efficient means to utilize more effectively and fully the existing power delivery infrastructure while simultaneously increasing reliability.

Washington, Dec 10 : In an effort to combine the properties of plastics and metals, scientists have developed a composite material, which not only conducts electricity like metals but is also light and inexpensive like plastics. The plastic-metal hybrids will be used in the very places where plastic components are equipped with printed circuit boards, for instance in cars or aircraft.

The code of conduct covers IT equipment such as servers and the environmental conditions under which they are maintained.

Recent research into the properties of graphene nanoribbons provides two new reasons for using the material as interconnects in future computer chips. In widths as narrow as 16 nanometers, graphene has a current carrying capacity approximately a thousand times greater than copper - while providing improved thermal conductivity.