Originally published in 1995, now updated and expanded with new specifications, this seminal work focuses on the development of Allied aircraft engines that helped turn the tide of World War II.
At the convergence of 3D-printing and lithium battery technology, Hong Kong researchers develop a promising textile-based, foldable battery that may find its way onto IoT-connected fabrics within automotive, aerospace, and medical industries.
Demand for high-performance plastics (HPPs) is up across the aerospace industry, driven by such key trends as growing performance requirements, increased use of additive manufacturing or 3D printing, supply chain globalization, and tightening environmental regulations. Growing passenger traffic coupled with the need to reduce emissions – being accomplished through lightweighting, engine downsizing, and vehicle electrification – present opportunities for HPPs, research analysts at Frost & Sullivan in San Antonio, Texas, explain.
During Consumer Electronics Show (CES) 2019, Hyundai debuted it “Elevate” concept: a modular electric vehicle (EV) that can transition between driving on flat surfaces and “walking” over treacherous terrain.
Some OEMs are finding that the traditional solutions for eliminating EMI/RFI are no longer sufficient given increases in operating circuit frequency, noises of higher frequencies that expand the affected frequency range, and the miniaturization of electronic devices that shrink the distance between source and device. This is leading many OEMs to employ monolithic EMI filters instead of traditional options.
Goodfellow’s process involves breaking methane gas – a very potent greenhouse gas – into hydrogen and elemental carbon atoms in a plasma reactor. The carbon atoms recombine into graphene sheets in the hydrogen atmosphere.
By integrating all of the drivetrain components normally found under the hood of a car into the wheel of an EV, the platform optimizes freedom of design, multiple body configurations on a single platform, reduced vehicle size and weight, and increased energy and operational efficiency.
Officials at the Japan Aerospace Exploration Agency (JAXA) and Toyota Motor Corp. in Tokyo have taken a first step toward collaborating on international space exploration, having agreed to accelerate their ongoing joint study of a manned, pressurized rover powered by fuel cell technologies to enable lunar mobility.