Sentences with phrase «aerospace applications of»
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Founded by inventor Larry Fullerton, Correlated Magnetics holds 85 patents on processes and designs, and is working on applications in everything from aerospace to medicine to home - building, and has drawn the interest of the U.S. Navy and NASA.
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According to an analysis of the 2015 Wohlers Report by Engineering.com,» the use of industrial metal additive manufacturing systems for demanding production applications in the aerospace and medical markets also grew strongly.»
... I think some of the things that we would be looking at in terms of applications would be short - run production in automotive, highly customized parts for high - end automotive and aerospace industries.
As the premier source of early - stage capital for aerospace startups, we receive hundreds of applications for funding each year.
The evolutionary principles of natural selection, variation, and recombination are the basis for genetic algorithms, an engineering technique that has many practical applications, including aerospace engineering, architecture, astrophysics, data mining, drug discovery and design, electrical engineering, finance, geophysics, materials engineering, military strategy, pattern recognition, robotics, scheduling, and systems engineering.
Our materials make innovation design solutions possible in a range of industries including consumer electronics, solar and wind energy, fuel cells, package printing, aerospace, automotive, food safety and industrial applications.
Among the recipients was Dr Michael Hicks FRAeS of Rolls - Royce who won the Specialist Gold Award for his world class contributions to materials engineering through the development and application of many new aerospace materials.
The GIST Tech - I Competition received a record number of applications with more than 1000 applications being received from all around the world, covering all science and technology sectors from agriculture to aerospace.
The research is important to the engineering sector for some potential applications of nanotechnology, for example in catalysis and aerospace, where particles of only nanometre dimensions are subjected to very high temperatures.
They have been made by rapidly cooling alloys of various metals including, zirconium, palladium, iron, titanium, copper, and magnesium, and used for a variety of applications from making golf clubs to aerospace construction.
Examples of the high temperature applications include turbine engine control in aerospace and energy generation and oil field instruments.
A new, lightweight composite material for energy storage in flexible electronics, electric vehicles and aerospace applications has been experimentally shown to store energy at operating temperatures well above current commercial polymers, according to a team of Penn State scientists.
To Marcello Canova, assistant professor of mechanical and aerospace engineering at Ohio State, this successful application of NDP represents a huge step forward in studies of how batteries work.
However, we can demonstrate that it works at a greater range of frequencies making it more useful for other engineering applications, such as nano - antennas and the aerospace industry.»
But high - grade titanium with low levels of oxygen is hard to come by, and the expense of purifying the metal has prevented its wider use in applications for the construction, automotive and aerospace industries.
«Methods of controlling and manipulating subwavelength acoustic and elastic waves have proven elusive and difficult; however, the potential applications — once the methods are refined — are tremendous,» said Guoliang Huang, associate professor of mechanical and aerospace engineering in the College of Engineering at MU.
[Box 14] Academy of Independent Scholars American Association of Engineering Societies (AAES) American Association for Higher Education American Association of Physics Teachers American Association of University Professors (AAUP) American Astronomical Society American Chemical Society (ACS) American Enterprise Institute for Public Policy Research American Geophysical Union American Institute of Biological Sciences (AIBS) American Institute of Chemical Engineers (AICE) American Institute of Chemists (AIC) American Institute of Industrial Engineers American Institute of Physics (AIP) American Mathematical Society American Meteorological Society American Nuclear Society American Physical Society The American Political Science Association American Psychiatric Association American Psychological Association American Science Film Association American Society for Cybernetics American Society for Engineering Education (ASEE) American Society for Horticultural Science (ASHS) American Society for Humanistic Aerospace Research and Application American Society for Information Science (ASIS) American Society for Microbiology American Society for Public Administration (ASPA) American Society for Testing and Materials American Society for Association Executives American Society of Civil Engineers (ASCE) American Society of Mechanical Engineers (ASME) Associated Universities, Inc..
Building a quantum computer has been called the «space race of the 21st century» — a difficult and ambitious challenge with the potential to deliver revolutionary tools for tackling otherwise impossible calculations, with a plethora of useful applications in healthcare, defence, finance, chemistry and materials development, software debugging, aerospace and transport.
Composites with this design structure could be used for a variety of applications, including aerospace and automotive frames, body armor and football helmets.
Thermoelectric materials produce electricity by exploiting the flow of thermal current from a warmer area to a cooler area and are currently used in both subsea and aerospace applications.
Scientists from the Carnegie Institution for Science and Yanshan University has developed a new form of carbon that is elastic as well as ultra-strong, lightweight, and electrically conductive, properties that lend it to a wide array of applications, from aerospace engineering to military armor.
In that role, he conducted research in the epitaxial growth of intermetallic compounds on III - V compound semiconductors, in support of the development of advanced digital and analog devices for aerospace electronics applications.
Some of the potential applications of nanotechnology, for example in catalysis and aerospace, may subject particles of only nanometre dimensions to very high temperatures.
POLYMER - METAL HYBRID LAMINATE COMPOSITES: UNDERSTANDING AND UTILIZING SURFACE CHEMISTRY AT THE INTERFACE: Reza Montazami Polymer - metal hybrid laminate composites have significantly lower densities than metal alloys and composites with potential for wide range of applications including aerospace, automotive, and biomedical prosthetics.
The aerospace engineering science discipline involves: increasing the knowledge and understanding of the aeronautical and astronautical sciences and their applications in aviation and space exploration; improving manned and unmanned commercial, defense, and business aviation technology; and creating, developing, testing, launching, operating, maintaining, remodeling, and decommissioning aeronautical vehicles and structures.
Caparo Vehicle Technologies is a UK - based company at the cutting edge of advanced materials and engineering for not only automotive applications but also the aerospace industry.
We recently attended a briefing at Northrop Grumman in Redondo Beach, California, to help facilitate the transfer of technology from aerospace to automotive aftermarket applications.
A division of Élan Motorsports Technologies (a Panoz LLC affiliate), Élan Composites is an advanced composites parts and tooling maker that uses modern, ultra-lightweight materials such as carbon fiber, prepreg glass, aramid fibers, Kevlar ®, aluminum and Nomex ® core, and woven polypropylene to create components for automotive, motorsports, aerospace and many other applications.
Everything is hot - or cold - bonded, aerospace style, with minimal application of self - piercing rivets and no conventional structural welds.
Moog Inc. is a worldwide designer, manufacturer and integrator of high performance precision motion and fluid controls and systems for a range of applications in aerospace and defense, industrial and medical markets.
The products are used in a variety of applications, including aerospace, defense electronics and medical technologies.
Linear Technology Corporation manufactures high performance analog integrated circuits for a variety of applications including networking, robotics, power management, and military and aerospace systems.
He has played key roles in the development of many large - scale software business applications and e-commerce web - applications for companies such as Webroot Software, Progressive Insurance, and Ball Aerospace.
Ferrofluid is used in a variety of applications, including electronic devices, analytical instrumentation, optics, and aerospace.
But the world has moved on significantly - from military and aerospace applications, electric motor and battery technologies have been developed that will enable the Lightning to demonstrate 700 plus bhp performance over a range that exceeds some of today's petrol performance cars.
«The most important application for this research in the near term will be aircraft, because it is very hard to replace kerosene with anything else,» said Christian Satter, Head of Solar Chemical Engineering German Aerospace Center Institute of Solar Research, Solar Chemical Engineering.
1 National Institute of Geophysics, Geodesy and Geography, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria 2 Institute for Space Applications and Remote Sensing, National Observatory of Athens, 15236 Mount Penteli, Greece 3 Istituto Nazionale di Geofisica e Vulcanologia, 00143 Rome, Italy 4 Institute of Terrestrial Magnetism, Ionosphere, and Radio Propagation, Russian Academy of Sciences, 142190 Troitsk, Moskovskaya obl., Russia 5 Institute of Atmospheric Physics ASCR, 14131 Prague, Czech Republic 6 Institute of Communications and Navigation, German Aerospace Center, 51147 Cologne, Germany 7 Ebro Observatory, University Ramon Llull, CSIC, E-43520 Roquetes, Spain 8 Dipartimento di Fisica, Università degli Studi di Roma, 00185 Rome, Italy 9 Atmospheric Sounding Station «El Arenosillo», INTA, Huelva, Spain
Built using layers of unidirectional 40 - ton carbon fiber, the same materials used in applications like spacecraft and aerospace.
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Participated in several engineering efforts for Aerospace, Department of Defense, Biomedical Engineering, Broadcast Communications, ISO 9001 regulated environments, as well as the Media and Entertainment Business environment QA Expertise: * Motivated and dedicated Software Quality Assurance and Testing Professional * Excellent verbal and written communication skills * Participated in test executions, requirements analysis, configurations of complex software / firmware and systems in a variety of environments * Experience in creating QA Procedures and metrics, establishing QA Standards, proficient in writing Test Plans, Use Cases, and Test Cases for manual tests and automation * Experience in executing SQL command scripts for Data Validation * Solved mission critical customer related issues and helped organizations solve several complex engineering anomalies * Great exposure related to testing on Web / Windows based, Business Class multi-user client server application software and Back End system validation * Ability to work independently or in a team environment and capable of establishing rapport with a variety of diverse functional working groups