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Mahle thermal management for electric commercial vehicles

Making UX easy on the eyes Faurecia IRYStec Tara Akhavan

Parker Aerospace and GKN Aerospace sign development agreement for integrated thermal management technologies in next-generation aircraft engines.

Aircraft orders exceed $95 billion in value and are complemented by roughly $3 billion in aircraft engine and engine service agreement contracts announced in the first two days of the 2018 Farnborough International Airshow. “The future starts at Farnborough; our exhibition halls are full of innovation that will shape how we fly, enabling us to go further, faster, and with less environmental impact,” says Farnborough International Commercial Director Amanda Stainer.  

Having successfully completed the development-testing phase, Parker Aerospace’s BACS modulates high-pressure bleed air from the engine, which is used to draw cool ambient air from outside the aircraft as it takes off. Once the outside air pressure is too low to draw in and the bleed air temperatures are cooler, the BACS will transition to use only low-pressure bleed air to pressurize the cabin.

NASA officials are announcing the availability of eight disruptive NASA materials and coatings technologies ready for commercialization. NASA officials are looking for companies interested in using the organization’s high-temperature materials and coatings, including those designed to withstand high temperatures, to improve existing products or introduce new ones.

Subaru Corporation is using tools developed by Pittsburgh-based ANSYS, Inc. to create control systems that deliver unrivaled safety and reliability for their next-generation hybrid electric vehicles (HEVs). The automotive OEM is using ANSYS SCADE to automate and expedite the precise design and validation of embedded software in the electronic control units (ECUs) for the company’s new e-Boxer system.

Covestro’s Makrofol SR906 is a polycarbonate film that offers good scratch and weathering resistance, making it suitable for use in automotive instrument panels.

TRB Lightweight Structures recently released an aerospace-grade lightweight honeycomb composite panel designed for interior applications, expanding the application areas for its range of composite flat panels. Recent investments for manufacturing composites include the procurement of a new 3- x 1.5-m autoclave system.

Two members of DCS Corp – Mark Wilkins and Finley Barfield – won the highly distinguished Robert J. Collier Trophy by the National Aeronautic Association for their work on the Air Force Research Laboratory (AFRL) Automatic Ground Collision Avoidance System (Auto-GCAS) team.

Capital software provides Mazda with extensive simulation and verification functionalities which can reduce error and cost when integrating systems across multiple, increasingly complex vehicle platforms.

Officials at an as-yet-unnamed airline in the U.S. is assessing a new hydrophobic coating developed by GKN Aerospace materials science and engineering specialists in Garden Grove, Calif., for cockpit windows on its commercial passenger aircraft. GKN Aerospace debuted the new materials science technology, which Airbus engineers are also flight-trialing on the airframe manufacturer’s flight-test aircraft, during Farnborough International Airshow in Farnborough, England, in July 2018.

As mobility software becomes increasingly complex and connected, so does the risk of human error and system safety. To combat this, New York-based software company AdaCore will work with Nvidia Corporation of Santa Clara, California to apply open-source Ada and SPARK programming languages for select software security firmware elements in highly-complex, safety-critical systems like Nvidia’s DRIVE AGX automated and autonomous vehicle solutions.

The challenges of climate change and energy security require a continuous effort toward reduction of global environmental pollution and fossil oil consumption. To meet greenhouse gas (GHG) emission targets and to decrease oil dependency, overall energy consumption of vehicles must be substantially reduced.

Mechanical engineering professor wins SAE Arnold W. Siegel Humanitarian Award, honoring contributions with a lasting impact on humanity

SAE International in Warrendale, Pa., is inviting members of the mobility engineering community to participate in the SAE Additive Manufacturing Webinar: Considerations When Integrating Additive Manufacturing into Aerospace and Ground Vehicle Development and Production Environments on Thursday, August 16, 2018 at 1 pm EDT/10 am PDT.

Electric and autonomous vehicles introduce new demands for optimized sensor placement and whole-vehicle thermal management that the latest simulation software can help address.

The digital tools used to create and produce aerospace components are evolving quickly as additive processes expand from prototypes to production.

Johnson Controls’ FreshPer4mance coating for fabrics repels dirt and liquid from automotive seats and protects passengers from microbes and static.

The aerospace industry is facing immense challenges due to increased design complexity and higher levels of integration, particularly in the electrification of aircraft. These challenges can easily impact program cost and product time to market. System electrification and electromagnetic compatibility (EMC) have become critical issues today. In the context of 3D electromagnetics, EMC electromagnetic compatibility ensures the original equipment manufacturer (OEM) that radiated emissions from various electronic devices, such as avionics or the entire aircraft for that matter, do not interfere with other electronic products onboard the aircraft.