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Industry News

NASA Announces New Partnerships to Develop Space Exploration Technologies

News

NASA is partnering with six U.S. companies to develop 10 “tipping point” technologies that have the potential to significantly benefit the commercial space economy and future NASA missions, including lunar lander and deep space rocket engine technologies. 

Selections are based on the agency’s third competitive Tipping Point solicitation, and have a combined total award value of approximately $44 million – a significant investment in the U.S. space industry. 

A technology is considered at a “tipping point” if investment in a ground or flight demonstration will result in significantly maturing the technology and improving the company’s ability to bring it to market. 

"These awards focus on technology collaborations with the commercial space sector that leverage emerging markets and capabilities to meet NASA's exploration goals," said NASA Administrator Jim Bridenstine. "While these key technologies will support NASA's science and human exploration missions in the future, these awards are yet another example of NASA’s commitment to our nation's growing commercial space industry today."

This solicitation targeted three Space Technology Mission Directorate (STMD) strategic technology focus areas: Expand Utilization of Space, Enable Efficient and Safe Transportation Into and Through Space, and Increase Access to Planetary Surfaces.

The selected proposals, organized by strategic technology focus areas, are: 

Read the article

ESA begins research into impact of lunar dust on humans

News

A team of researchers at the European Space Agency (ESA) has begun a study on the impact of lunar dust on human health.

The team will use simulated Moon dust mined from a volcanic region in Germany to test equipment and the behaviour of lunar dust.

The ESA noted that after Apollo astronauts encountered abrasive particles mixed in the lunar dust during their moonwalk their throats became sore and eyes watery.

The dust even ate away layers of spacesuit boots and damaged the vacuum seals of Apollo sample containers.

Scientists do not currently know how toxic the dust is for humans. However, a previous study showed that lunar soil simulants can destroy lung and brain cells following long-term exposure.

Read more at AEROSPACE TECHNOLOGY

Nasa selects proposals for future deep space missions

News
NASA Materials Research

NASA has selected 20 new research and technology proposals to provide a total of $15m in funding to promote the agency’s future deep space missions and benefit the US economy.

Forming part of NASA’s Phase ll Small Business Technology Transfer (STTR) programme, the proposals were selected from 19 small businesses based in the US following a competitive process.

Each of the selected business will work together with various research institutions from different parts of the US, including New Jersey, Alabama, Indiana, Illinois and California, to develop technologies in the fields of aeronautics, science, human exploration and operations, and space technology.

NASA Washington Space Technology Mission Directorate (STMD) acting associate administrator Jim Reuter said: “Our STTR programme focuses both entrepreneurs and leading research institutions on Nasa’s long-term goals, bringing the latest in aerospace research to our programmes.”

AEROSPACE TECHNOLOGY

ULA launches NASA’s Parker Solar Probe to study Sun

News

The United Launch Alliance (ULA) has launched NASA’s Parker Solar Probe into space from Space Launch Complex-37 at Cape Canaveral Air Force Station in Florida, US.

Launched onboard ULA’s Delta IV Heavy rocket, this mission intends to study the solar atmosphere, known as the Sun’s corona.

Part of NASA’s Living with a Star programme to explore aspects of the Sun-Earth system that directly affect life and society, the Parker Solar Probe is equipped with four instruments to study magnetic fields, plasma and energetic particles, as well as capture images of the solar wind.

In addition to designing and building the Parker Solar Probe, Johns Hopkins University Applied Physics Laboratory (APL) will operate the instrument.

APL project scientist Nicola Fox said: “Exploring the Sun’s corona with a spacecraft has been one of the hardest challenges for space exploration.

“We’re finally going to be able to answer questions about the corona and solar wind raised by Gene Parker in 1958, using a spacecraft that bears his name, and I can’t wait to find out what discoveries we make.”

The United launch Alliance Delta IV Heavy rocket launches NASA's Parker Solar Probe from Launch Complex 37 at Cape Canaveral Air Force Station, Florida. Credit: NASA
AEROSPACE TECHNOLOGY

Lockheed Martin starts final assembly of NASA’s Orion spaceship

News
NASA Materials Research

Lockheed Martin has started the final assembly of NASA’s Orion spaceship, after completing the construction on the spacecraft’s capsule structure.

The structure, which is designed to carry astronauts to the Moon as part of NASA’s Orion Exploration Mission-2 (EM-2), has already reached the agency’s Kennedy Space Center in Florida, US, for final assembly.

Welded together by a team from Lockheed Martin over a period of seven months at NASA’s Michoud Assembly Facility near New Orleans, the structure will serve as a pressure vessel for the EM-2 spacecraft.

The vessel features seven large, machined aluminum alloy pieces that form a lightweight, air-tight capsule.

At the NASA Michoud Assembly Facility in Louisisana, Lockheed martin technicians have completed construction of the first Orion vapsule structure that will carry humans to deep space n Exploration Mission-2. Credit NASA
AEROSPACE TECHNOLOGY

AVATAR X programme launched for remote space exploration

News

Air transport company Ana Holdings, together with Japan Aerospace Exploration Agency (JAXA), has launched a new programme, AVATAR X, to boost space exploration using real-world Avatars.

A real-world Avatar is a human-controlled robot that enables a person to see, hear, feel and interact freely in a remote environment in real-time.

It consists of an operator apparatus, a pilot, and remote apparatus, an Avatar, which are in sync with each other.

The AVATAR X programme has been designed to allow humans to remotely build camps on the Moon, promote long-term space missions.

The programme aims to launch new space businesses, which include remote construction on the Moon and Mars; operation and maintenance of space stations and facilities from Earth, and space-based entertainment and travel for the general publi

AVATAR X Programme Phases
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Solvay expands US composites manufacturing facility

News
Nanomaterial Manufacturing
Nanomaterial Discovery

Solvay celebrated the ground-breaking of its Greenville, Texas manufacturing footprint expansion that increases the site’s resin mixing capacity to meet the growing needs of commercial and military aerospace composite customers.

Local officials joined the site and project management team for the ceremony.

“Greenville TX is a strategic site for Solvay where in recent years we have invested several million dollars in capacity and modernisation resulting in a double-digit employment growth. This new expansion will enable us to further meet growing customer demand for Solvay’s market leading out of autoclave technologies,” said Tracy Price, executive vice-president global operations, Solvay Composite Materials.

Solvay’s Greenville Texas site currently has over 300 full-time employees and recruiting efforts are ongoing.

www.solvay.com

AEROSPACE Manufacturing

PhD student develops spinning heat shield for future spacecraft

News

A University of Manchester PhD student has developed a prototype flexible heat shield for spacecraft that could reduce the cost of space travel and even aid future space missions to Mars.

Heat shields are essentially used as the brakes to stop spacecraft burning up and crashing on entry and re-entry into a planet’s atmosphere. This design is the first in the world to utilise centrifugal forces that stiffen lightweight materials to prevent burnup.

Current spacecraft heat shield methods include huge inflatables and mechanically deployed structures that are often heavy and complicated to use.

Rui Wu, from Manchester’s School of Mechanical, Aerospace and Civil Engineering, says as well as being lightweight in design is prototype is also “self-regulating”. This means there is no need for any additional machinery, reducing the weight of spacecraft even further and allowing for low-cost scientific research and recovery of rocket parts.

Spinning Heat Shield Prototype
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Could you shape the aerospace workforce of the future?

News

On October 25, leading aerospace manufacturers, airlines, training providers and technical experts will gather at this unique conference and networking event.

“Our involvement with eQualified has given Abaris the opportunity to enhance the content of our aerospace training courses and build lasting relationships with aerospace industry stakeholders. Our membership is invaluable because it gives us the opportunity to work alongside our customers (and potential customers).” – Mike Hoke, president, Abaris Training

This is a free event taking place on October 25, 2018 at The Engineers’ Society of Western Pennsylvania, 337 Fourth Avenue, Pittsburgh, PA 15222, USA.

AEROSPACE Manufacturing

NASA plots a return to the moon within a decade — but this time astronauts will stay there

News
NASA Materials Research

Bob Richards remembers watching the gray, ghostly figures bounce across his family’s black-and-white TV screen nearly a half-century ago: Neil Armstrong and Buzz Aldrin, the first humans walking on the moon.

Enthralled by the success of Apollo 11, which touched down 49 years ago on July 20, and by the future portrayed in pop culture by “Star Trek” and “2001: A Space Odyssey,” Richards was certain that routine flights to the moon and space stations were inevitable within a few decades.

It never happened: The United States canceled its big-budget moon program just a few years after an epic Space Race victory over Russia, and astronauts haven’t left orbits near Earth since.

But Richards, the CEO of Cape Canaveral-based Moon Express and a self-described “orphan of Apollo,” now is confident that Americans are within a decade or so of returning to the lunar surface — this time to stay.

USA Today

NASA Invites Media to View New Mission to Study the Frontier of Space

News

Media will have the opportunity June 4-5 for tours, interviews and photographs of NASA’s Ionospheric Connection Explorer (ICON) as it prepares to leave Vandenberg Air Force Base in California for a scheduled mid-June launchfrom Kwajalein Atoll in the Marshall Islands.

ICON team members will be available to answer questions about Orbital ATK’s Pegasus XL rocket, which is attached to the company’s L-1011 “Stargazer” aircraft and will carry ICON into orbit. There also will be opportunities to tour the aircraft and witness itstakeoff on its ferry flight to the island.The observatory will leave Vandenberg June 5 for ascheduled launch on June 15 from Kwajalein (June 14 in the continental United States).

ICON will study the frontier of space: the dynamic zone high in Earth’s atmosphere where terrestrial weather from below meets space weather from above. This area at times can be filled with such beauty as the aurora, and at other times experience increases in radiation that can interfere with radio communications, satellites and even astronauts. ICON will help determine the physical process at play in this space environment and pave the way for mitigating their effects on our technology, communications systems and society.

This event is open only to U.S. citizens who possess a government-issued photo identification. One form of government-issued photo identification is required and must be a driver’s license or passport.

To apply for media credentials, go to https://media.ksc.nasa.gov. Media interested in attending this event must also RSVP via email at ksc-media-accreditat@mail.nasa.gov. In your RSVP, please include your driver’s license number and its state of issuance. The deadline for submitting credentials and to RSVP is no later than noon EDT Tuesday, May 22.

An artist concept of NASA’s Ionospheric Connection Explorer. The spacecraft will observe colorful swaths of light called airglow to track how Earth’s weather and space weather interact.
More Information

Solvay Introduces FusePly Composite Bonding Technology for Aerospace Industry

News
Computational Materials
Materials Genome Initiative

Solvay is launching its FusePly composite bonding technology at SAMPE 2018 in Long Beach, California, US, on 22-23 May 2018.

Solvay developed FusePly to enable the build of reliable, bonded composite parts using conventional manufacturing processes through the creation of covalently bonded structures, thus potentially removing the need for abundant rivets and fasteners. It addresses the manufacturing challenges faced by aircraft builders looking for improved performance, build rates and lightweighting.

According to Solvay, FusePly offers clear step-change bonding performance and benefits to users:

  • Improved reliability: Through the creation of chemical bonds, FusePly enables part manufacturers to have increased confidence in bonded structures;
  • Higher part performance: Compared to mechanical fasteners, FusePly offers higher performance since drilling holes into fibre-reinforced structures introduces structural damage and creates stress concentrations that ultimately reduce the load capacity of the part;
  • Lightweighting: The reduction and replacement of fasteners with FusePly bonding will substantially reduce the overall weight of the aircraft;
  • Design freedom: Adhesives offer much greater design flexibility during manufacture and assembly at lower cost. FusePly can easily be integrated into existing manufacturing processes as an upgrade for traditional surface preparation methods.

Solvay will be introducing FusePly at SAMPE 2018 by exhibiting samples on its stand and presenting in the conference programme.

Read More at NetComposites

HyperSizer Aids Design of Dream Chaser Spacecraft

News
Computational Materials
NASA Materials Research
Materials Genome Initiative

With the go-ahead from NASA for a first mission to the International Space Station (ISS), the Sierra Nevada Corporation (SNC) Dream Chaser spacecraft team is now reviewing flight performance data and refining the vehicle’s design adaptations to meet mission requirements and changing payloads, using Collier Research's HyperSizer software.

The HyperSizer tool provides insights into the strength, weight and manufacturability of designs for both composite and metal structures. Typically able to reduce the weight of existing designs by 20-40%, the software plays an important role in margin-of-safety certification for aerospace projects and is also valuable for wind, marine and other fields that demand performance with durability.

Dream Chaser Spacecraft
NetComposites

OHB to negotiate implentation of ESA exoplanet research satellite

The European Space Agency has selected OBH System AG as industrial prime contractor to negotiate the implementation of its PLATO satellite, which will detect and conduct research into exoplanets.

OHB System AG (Bremen, Germany) announced April 26 it has been selected by ESA as industrial prime contractor to negotiate the implementation of the PLATO (PLAnetary Transits and Oscillations of stars) scientific research mission of the European Space Agency (ESA), which is to be launched in 2026.

PLATO is a satellite-based observatory for use in space to detect and conduct research into exoplanets orbiting in other solar systems. As the prime contractor, OHB will be able to rely on an existing industrial core team comprising Thales Alenia Space (Cannes, France) and RUAG Space Switzerland (Zürich, Switzerland) to design and develop the satellite.

Thales Alenia Space is responsible for avionics, and integrating and testing the satellite platform. RUAG Space Switzerland, will be designing and assembling the optical bench, which is comprised of carbon fiber face sheets with an aluminum honeycomb core. The optical bench forms the “basis” for the integration of 26 high precision cameras, which are being developed and assembled by the German Aerospace Center (DLR, Cologne, Germany) and a consortium of various European research centers and institutes. This work will be carried out by the OHB experts at the OHB-Space Center Optics & Science in Oberpfaffenhofen near Munich in a special ISO Class 5 clean room.

 

Full Story at Composites World

Solvay and MultiMechanics partner on material simulation software

News
Computational Materials

Solvay (Brussels, Belgium)  and MultiMechanics (Omaha, NE, US) announced May 17 they have partnered to develop a material simulation software platform that could reduce the time and cost of developing and certifying new materials by 40%. Currently, the time and cost to a material supplier to develop and certify a new structural aerospace material can take five years and up to $50M, while the cost to the OEM to certify the material can be even higher.

Scientists at Solvay were looking for a simulation tool that could:

  • Process inputs such as fiber volume fraction, fiber orientation, interface effects, resin ductility, material variability
  • Handle the amount of explicit inputs required in order to properly define and test new materials
  • Quickly provide insight into how changes at the constituent material level affect overall mechanical performance at the composite level
  • Shorten the feedback loop from new constituent synthesis to composite property determination

MultiMechanics partnered with Solvay to address these challenges, and in 2017, Solvay Ventures co-invested $1.9 million to speed up the development of the MultiMechanics solution. Since then, MultiMechanics has enabled the Solvay team to understand their materials on a deeper level, expedite the material development process, and enter into new markets. The team can now send new material designs to be physically tested with greater confidence that their new design will pass testing. They also have insight into exactly how, when, and where damage will occur, and how they can mitigate it. 

“We are confident this software can accelerate innovation in complex materials and the penetration of composites in the automotive and aerospace industries,” says Nicolas Cudré Mauroux, chief technology officer at Solvay. “The accuracy and speed afforded by MultiMechanics, and its efficient integration with commonly used commercial finite element software packages, is changing the way we develop new materials and interact with our customers.”

New material software simulation
Composites World

IACMI, DuPont, Fibrtec and Purdue University explore new thermoplastics manufacturing process

News
Computational Materials

New carbon fiber composite manufacturing process exhibits improved fabric formability characteristics compared to traditional woven materials.

The Institute for Advanced Composites Manufacturing Innovation (IACMI, Knoxville, TN, US), a public/private consortium designed to accelerate composite materials and process development in the US, announced May 15 the Phase I completion of a project led by DuPont (Wilmington, DE, US), with project partnership from Fibrtec (Atlanta, TX, US) and Purdue University. The conclusion of Phase I validates the creation of a new carbon fiber composite manufacturing process that exhibits improved fabric formability characteristics compared to traditional woven materials. The implications of the Phase I results are driving Phase II of the project, and can lead to a decrease in cost for carbon fiber composite structures, making them more amenable for adoption in the automotive and other high volume industries.

The new material created through this IACMI project combines Fibrtec’s flexible coated tow, Fibrflex, with DuPont’s Rapid Fabric Formation (RFF) technology, and a proprietary DuPont polyamide resin, all supported by Purdue University’s modeling and characterization capabilities. The coated tow material is a partially impregnated carbon fiber/polyamide composite tow where the carbon fiber is not fully wetted with the polyamide, yielding a more flexible tow material than one that is fully impregnated. The RFF process is a way of manufacturing fabrics with tows in varying orientations without the need to lift the tow during processing. Experiments, modeling and simulations, have reportedly shown that this process/materials combination is a potential method for producing lower cost continuous fiber reinforced polymer (CFRP) thermoplastic materials that conform well during molding.

DuPont’s Rapid Fabric Formation technology deploying Fibrflex at high shear angles.
Full Story at compositesworld.com

Nasa to launch two new CubeSats

News

Nasa is set to launch its first set of two CubeSats, which will be operating in deepspace.

MarCO-A and MarCO-B satellites have been built by the agency’s Jet Propulsion Laboratory in Pasadena, California, US. The spacecraft are collectively called Mars Cube One (MarCO).

MarCO is scheduled to be launched on a rocket with Nasa’s InSight robotic lander for Mars early next month.

They are designed to follow InSight on its journey through space. If they survive the journey, they will relay data about InSight as it enters the Martian atmosphere and lands.

“The satellites are designed to demonstrate the first test of CubeSat technology beyond Earth’s orbit.” 

A rendering of the twin Mars Cube One (MarCO) spacecraft as they fly through deepspace
AEROSPACE TECHNOLOGY

ESA and Nasa partner to bring Martian soil back to Earth

News

Nasa and the European Space Agency (ESA) have signed a statement of intent to study mission concepts to bring samples of Martian soil back to Earth.

Collected samples will be thoroughly analysed in advanced laboratories.

The newly signed agreement features the possible roles that could be played by ESA and Nasa, as well as areas of potential cooperation between the agencies.

ESA Human and Robotic Exploration director David Parker said: “A Mars sample return mission is a tantalising but achievable vision that lies at the intersection of many good reasons to explore space.

“There is no question that for a planetary scientist, the chance to bring pristine, carefully chosen samples of the red planet back to Earth for examination using the best facilities is a mouth-watering prospect.

“According to ESA, bringing samples from Mars to Earth will require at least three missions from Earth, as well as the first rocket to be launched from Mars.”

Martian Soil
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Blue Origin conducts test flight of New Shepard rocket

News
Computational Materials

Blue Origin has successfully launched and then landed its New Shepard rocket from the west Texas desert in the US as part of a new round of the rocket’s test flight programme.

This represents the eighth test flight of the New Shepard rocket.

During the test, the reusable rocket carried a crew capsule featuring a dummy named ‘Mannequin Skywalker’, to reach an altitude of 350,000ft, around 5% higher than previous test flights, reported cnet.com.

The flight has enabled New Shepard to reach the globally accepted boundary between Earth’s atmosphere and space known as Karman Line.

The test also marks New Shephard’s highest flight and the first to test a crew capsule equipped with acrylic windows.

In order to reach the space, New Shephard flew at a maximum speed of 2,200mph during the latest test, reported businessinsider.in. After flying for several minutes, the rocket landed safely back on earth at a nearby pad.

Blue Origin has successfully launched and then landed its New Shepard rocket
Full Article

Australian Space Agency to receive $30m government funding

News

The Australian Space Agency is set to receive A$41m ($30m) of initial funding from the country’s federal government.

The fund has been allocated in the new 2018-19 federal budget. It includes A$26m ($19m) for the establishment of a national space agency, as well as A$15m ($11m) for strategic space projects that will generate employment and business opportunities for Australian citizens.

Australian Space Agency is responsible for developing the country’s space industry, with operations scheduled to begin in July this year.

Read More

Soft magnetic circuits can measure stress in composite materials

News
Computational Materials

Researchers from the National University of Science and Technology (NUST) Center of Composite Materials have developed soft magnetic circuits that provide a non-contact method of measuring the internal stresses of composite materials used in aerospace and aircraft engineering.

The team’s findings, published in the Journal of Alloys and Compounds, describes amorphous soft magnetic circuits measuring 10-60 microns in diameter, which are wired into the layers of carbon fibre in materials during the manufacturing stage to form a grid of stress-sensitive points.

“It is now possible to more effectively assess the degree of internal damages during the operation of aircraft parts, oil pipelines, ship hulls, and other industrial and transport facilities,” said NUST scientist Alevtina Chernikova.

Full story at AEROSPACE TECHNOLOGY

SpaceX launches Bangabandhu Satellite-1 into space

News

SpaceX has launched the Bangabandhu Satellite-1 into orbit from Launch Complex 39A (LC-39A) at Nasa’s Kennedy Space Center in Florida, US.

Approximately 33 minutes after lift-off, the satellite was placed into a geostationary transfer orbit by an upgraded Falcon 9 rocket called Block 5.

The launch marks Block 5’s first flight, following the final substantial upgrade made to the rocket.

After launching the satellite, the first stage of the rocket was successfully recovered when it landed on the ‘Of Course I Still Love You’ droneship stationed in the Atlantic Ocean.

According to SpaceX, the Falcon 9 Block 5 is capable of conducting ten or more flights with very limited refurbishment.

The Bangabandhu Satellite-1 is Bangladesh’s first geostationary communications satellite. It will be operated by Bangladesh Communication Satellite Company (BCSCL) to provide telecommunications and broadcasting services.

Bangabandhu Satellite-1 is Bangladesh’s first geostationary communications satellite.
Full Story

Nasa to send helicopter to Mars on-board rover mission

News
NASA Materials Research

Nasa is set to send a helicopter to Mars as part of the agency’s next rover mission known as Mars 2020.

The ‘Mars Helicopter’ is a small, autonomous rotorcraft expected to show the viability and potential of flying heavier-than-air vehicles on Mars.

Developed at Nasa’s Jet Propulsion Laboratory (JPL) over four years, the helicopter will be used to demonstrate that big things can come in small packages.

The 1.8kg Mars Helicopter features fuselage that is about the same size as a softball.

The helicopter is also equipped with a pair of counter-rotating blades that will cut into the thin Martian atmosphere at almost 3,000rpm.

NASA's Mars Helicopter will travel with the agency's Mars 2020 rover to demonstrate the viability and potential of heavier-than-air vehicles
Aerospace Technology

Orbital ATK launches Nasa’s cargo delivery mission to ISS

News
NASA Materials Research

Orbital ATK has launched its ninth cargo delivery mission to the International Space Station (ISS) from Nasa’s Wallops Flight Facility in Virginia, US.

The mission was launched on-board an Orbital ATK Antares rocket on behalf of Nasa under the CRS-1 contract.

As part of the launch, the Antares rocket carried Orbital ATK’s Cygnus spacecraft, which was loaded with around 3,350kg of supplies and scientific equipment.

The rocket deployed the spacecraft into orbit around nine minutes into the flight.

Orbital ATK has established reliable communications with the spacecraft, which has already fully deployed its solar arrays to receive necessary electrical power to operate.

Read more at Aerospace Technolgoy

SpaceX launches two Nasa and five Iridium satellites

News
Nanomaterial Manufacturing

SpaceX has launched a total of seven satellites, including two for Nasa and five for Iridium, in a single flight from Space Launch Complex 4E at Vandenberg Air Force Base in California.

A recycled Falcon 9 rocket was used to launch Nasa’s Gravity Recovery and Climate Experiment Follow-On probes (GRACE-FO) and Iridium’s five NEXT satellites.

Nearly 11 minutes and 30 seconds after the launch, the rocket deployed the GRACE-FO satellites. The Iridium satellites were deployed around an hour after the launch.

SpaceX used the first stage of the Falcon 9 rocket to launch the Zuma mission from Space Launch Complex 40 at Cape Canaveral Air Force Station in January this year.

SpaceX Falcon 9 rocket from Space Launch Complex 4E Vandenberg Air Force Base
Full story AEROSPACE TECHNOLOGY

Merrimack materials innovator Nanocomp acquired by Texas-based company

News
Computational Materials
NASA Materials Research
Nanomaterial Manufacturing

MERRIMACK — Huntsman Corp. of Texas announced this week that it has acquired Merrimack based Nanocomp Technologies.

Although the financial details of the acquisition were not released, both companies say they are pleased with the new development.

Nanocomp Technologies was founded in 2004 and is known for its Miralon products made from pure carbon nanotube materials that have a variety of uses. Two years ago the company’s carbon nanotubes were on board NASA’s Juno mission to Jupiter, a solar-powered spacecraft that broke the record for traveling the farthest from the sun.

Read Full News

Boeing HorizonX announces investment in Reaction Engines

News

Boeing has announced its investment in Reaction Engines, a leader in advanced propulsion systems based in Oxfordshire. Reaction Engines’ technology will contribute to the next generation of hypersonic flight and space access vehicles.

Read More at Aerospace Manufacturing

Science News: How to decrease the mass of aircrafts

Nanomaterial Manufacturing

Scientists have created unique polymer matrices for polymer composites based on novel phthalonitrile monomers. The developed materials possess higher strength than metals, which helps to sufficiently decrease the mass of aircraft parts that operate at high temperatures.

Engine Fan with Carbon-Fiber Cover
Read More at Science Daily

Hexcel, Arkema join forces in thermoplastic composites

Computational Materials
Materials Genome Initiative

Hexcel and Arkema executives have signed a strategic alliance to develop thermoplastic composite solutions for the aerospace sector combining the expertise of Hexcel in carbon fiber and that of Arkema in PEKK.

The partnership aims to develop carbon fiber-reinforced thermoplastic tapes to produce lightweight parts for future generations of aircraft. In addition to lightweighting, these new composites will offer lower cost and faster production speeds for customers in aerospace, space, and defense.

A joint research and development laboratory in France will be established.

Full Article

NASA Invests in Concept Development for Missions to Comet, Saturn Moon Titan

News

NASA has selected two finalist concepts for a robotic mission planned to launch in the mid-2020s: a comet sample return mission and a drone-like rotorcraft that would explore potential landing sites on Saturn’s largest moon, Titan.

The agency announced the concepts Wednesday, following an extensive and competitive peer review process. The concepts were chosen from 12 proposals submitted in April under a New Frontiers program announcement of opportunity.

“This is a giant leap forward in developing our next bold mission of science discovery,” said Thomas Zurbuchen, associate administrator for NASA’s Science Mission Directorate in Washington. “These are tantalizing investigations that seek to answer some of the biggest questions in our solar system today.”

The finalists are:

Comet Astrobiology Exploration Sample Return (CAESAR)

The CAESAR mission seeks to return a sample from 67P/Churyumov-Gerasimenko, a comet that was successfully explored by the European Space Agency’s Rosetta spacecraft, to determine its origin and history. Led by Steve Squyres of Cornell University in Ithaca, New York, CAESAR would be managed by NASA’s Goddard Space Flight Center in Greenbelt, Maryland.

Dragonfly

Dragonfly is a drone-like rotorcraft that would explore the prebiotic chemistry and habitability of dozens of sites on Saturn’s moon Titan, an ocean world in our solar system. Elizabeth Turtle from the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Maryland, is the lead investigator, with APL providing project management.

The CAESAR and Dragonfly missions will receive funding through the end of 2018 to further develop and mature their concepts. NASA plans to select one of these investigations in the spring of 2019 to continue on to subsequent mission phases.  

Full Article

Dream Chaser completes free-flight test

News
Computational Materials

Dream Chaser inches closer to first flight in the run-up to servicing the International Space Station, starting in 2020.

Sierra Nevada Corp. (Sparks, NV, US) reported on Nov. 13 that it has completed a successful atmospheric free­-flight test of its composites-intensive Dream Chaser spacecraft, signaling the program is another achievement closer to orbital operations.

The full­-scale Dream Chaser test vehicle was lifted from a Columbia Helicopters Model 234­ UT Chinook helicopter on Saturday, released and flew a pre­planned flight path ending with an autonomous landing on Runway 22L at Edwards Air Force Base, CA, US.

“The Dream Chaser flight test demonstrated excellent performance of the spacecraft’s aerodynamic design and the data shows that we are firmly on the path for safe, reliable orbital flight,” says Mark Sirangelo, corporate vice president of SNC’s Space System business area.

The first orbital vehicle is scheduled to go to the International Space Station as soon as 2020 for at least six missions as part of NASA’s Commercial Resupply Services 2 contract (CRS2). The missions will supply astronauts with much-needed supplies and technical support elements and enable the return of scientific experiments. The test vehicle was originally developed under the Commercial Crew Integrated Capabilities agreement (CCiCap).

“The Dream Chaser spacecraft today has proven its atmospheric flight performance along with its return and landing capability. This advances our program and the Dream Chaser towards orbital flight, while meeting the final milestone for our NASA CCiCap agreement and supporting milestone 5 of the CRS2 contract,” Sirangelo adds.

The test verified and validated the performance of the Dream Chaser spacecraft in the final approach and landing phase of flight, modeling a successful return from the space station. Most critically, by flying the same flight path that would be used returning from orbit, this free­ flight proves the highly important landing attributes needed to bring back science and experiments from the space station.

Dream Chaser, during its free-flight test.
Article Composites World

MIT nanofibers offer strength, toughness

News
Materials Genome Initiative
Nanomaterial Discovery

Researchers at the Massachusetts Institute of Technology (MIT) have developed a process that can produce ultrafine fibers — whose diameter is measured in nanometers, or billionths of a meter — that are exceptionally strong and tough. These fibers, which the researchers say should be inexpensive and easy to produce, reportedly could be choice materials for many applications, such as protective armor and nanocomposites.

The process, called gel electrospinning, is described in a paper by MIT professor of chemical engineering Gregory Rutledge and postdoc Jay Park. The paper appears online and will be published in the February edition of the Journal of Materials Science.

In materials science, Rutledge explains, “there are a lot of tradeoffs.” Typically researchers can enhance one characteristic of a material but will see a decline in a different characteristic. “Strength and toughness are a pair like that: Usually when you get high strength, you lose something in the toughness,” he says. “The material becomes more brittle and therefore doesn’t have the mechanism for absorbing energy, and it tends to break.” But in the fibers made by the new process, many of those tradeoffs are eliminated.

“It’s a big deal when you get a material that has very high strength and high toughness,” Rutledge says. That’s the case with this process, which uses a variation of a traditional method called gel spinning but adds electrical forces. The results are ultrafine fibers of polyethylene that match or exceed the properties of some of the strongest fiber materials, such as Kevlar and Dyneema, which are used for applications including bullet-stopping body armor.

MIT’s new ultrafine fibers are made via gel electrospinning of polyethylene.
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US President directs Nasa to pursue manned lunar and Mars missions

News

US President Donald Trump has signed a space policy directive asking Nasa to undertake new manned missions to explore the Moon, Mars and other destinations in the solar system.

The members of the National Space Council have unanimously endorsed the recommendations of the Space Policy Directive, which was revived in June to boost the country’s space sector.

Trump intends to enact all the recommendations, which seek to return American astronauts to the Moon for long-term exploration and utilisation.

The US Government also aims to employ new space technology to improve the country’s space capabilities.

Trump said: “It is America’s destiny to be at the forefront of humanity’s eternal quest for knowledge and to be the leader amongst nations on our adventure into the great unknown.”

The president has also unveiled the country’s plan to provide new incentives for the private industry to improve its space capabilities.

The US will work with other countries and the private industry to return astronauts to the Moon, as well as develop technologies for human exploration missions of Mars and beyond.

As part of the new space policy directive, the country aims to promote the growing domestic space industry, which saw the last manned mission to the Moon in 1972.

Under the directive, the US further seeks to launch astronauts on a US-made rocket and crew system, including the Space Launch System and Orion crew vehicle, over the next few years.

 

US President Donald Trump has signed a space policy directive
www.aerospace-technology

Nasa discovers new planet in Kepler-90 System

News

Nasa has discovered an eighth planet circling Kepler-90, a Sun-like star 2,545 light-years from Earth.

Discovered using machine learning from Google, the new Kepler-90i planet orbits its star once every 14.4 days.

Nasa astrophysics director Paul Hertz said: “Just as we expected, there are exciting discoveries lurking in our archived Kepler data, waiting for the right tool or technology to unearth them.

“This finding shows that our data will be a treasure trove available to innovative researchers for years to come.”

The planet was discovered after researchers Christopher Shallue and Andrew Vanderburg trained a computer to learn the method of identifying exoplanets in the light readings recorded by Kepler.

“This finding shows that our data will be a treasure trove available to innovative researchers for years to come.”

The artificial ‘neural network’ was inspired by the way neurons connect in the human brain, sifted through Kepler data and found weak transit signals from a previously-missed eighth planet orbiting Kepler-90, in the constellation Draco.

Kepler-90i is said to be about 30% larger than Earth and is close to its star. Its outermost planet, Kepler-90h, orbits at a similar distance to its star as Earth does to the Sun.

Shallue and Vanderburg also found a sixth planet in the Kepler-80 system, the Earth-sized Kepler-80g.

The researchers plan to apply their neural network to Kepler’s full set of more than 150,000 stars.

The Kepler and K2 missions for Nasa’s Science Mission Directorate in Washington are managed by Ames.

The latest work was performed through the Carl Sagan Postdoctoral Fellowship Program executed by the Nasa Exoplanet Science Institute. 

 

www,aerospace-technology

MDA signs contracts with Canadian Space Agency

News

Maxar Technologies’ business unit MDA has signed four contracts worth C$53.75m ($41.7m) with the Canadian Space Agency (CSA) to advance new robotics and rovers for space exploration, as well support ongoing operations of the International Space Station (ISS).

The company secured two contract amendments to provide funding for continued support to the robotic operations of the Mobile Servicing System (MSS), which is an essential component of the ISS.

The enhancements are aimed at streamlining operations and reducing operator communication loads.

“The technologies being developed under this contract offer direct spin-offs related to commercial initiatives that MDA has undertaken such as robotically servicing satellites in space.”

Full Article

Cygnus spacecraft completes eighth cargo supply mission to ISS

News

Orbital ATK’s ‘S.S. Gene Cernan’ Cygnus spacecraft has completed its eighth cargo supply mission to the International Space Station (ISS).

The OA-8 mission started on 12 November and was completed under Nasa’s Commercial Resupply Services (CRS-1) contract.

It began when Cygnus launched aboard an Orbital ATK Antares rocket at Nasa’s Wallops Flight Facility in Virginia, US.

“From launch to a safe re-entry, Cygnus exceeded expectations on every aspect of this mission.”

After reaching the orbiting laboratory, the spacecraft delivered 7,400lb of cargo and science experiments to the astronauts.

Cygnus supported the experiments inside the cargo module while docked to the laboratory and acted as an extension of the ISS.

The spacecraft also removed 6,400lb of items for disposal.

The ‘S.S. Gene Cernan’ executed flawlessly on secondary missions that included the deployment of 14 CubeSats into orbit from a NanoRacks CubeSat deployer.

Read More at www.aerospace-technology

Nasa selects concepts for new mission to Saturn’s moon Titan

News
NASA Materials Research

Nasa has selected two concepts for a new robotic mission, one of which aims to explore potential landing sites on Saturn’s largest moon, Titan.

The concept is named Dragonfly, which is a drone-like rotorcraft that would use the environment on Titan to fly to a number of locations to sample materials and determine surface composition to examine Titan’s organic chemistry and habitability.

It also intends to monitor atmospheric and surface conditions as well as image landforms to evaluate geological processes and perform seismic studies.

The other concept, Comet Astrobiology Exploration Sample Return (CAESAR), aims to return a sample from 67P/Churyumov-Gerasimenko comet to determine its origin and history.

Selected from a set of 12 proposals, both the concepts are expected to be launched in a mission by the mid-2020s.

The proposals were submitted in April as part of Nasa’s New Frontiers programme.

Full Article

ULA completes Atlas V launch segment DCR for CST-100 Starliner

News

United Launch Alliance (ULA) has concluded an Atlas V launch segment design certification review (DCR) designed for Boeing’s CST-100 Starliner spacecraft.

The spacecraft is expected to carry astronauts to the International Space Station onboard a ULA Atlas V rocket from the US.

The recently completed Atlas V DCR was conducted to support the Boeing International Space Station (ISS) DCR, which was held last month with Nasa at Kennedy Space Center in the US.

“The design certification review is a significant milestone that completes the design phase of the programme, paving the way for operations.”

ULA Commercial Crew programme manager Barb Egan said: “The design certification review is a significant milestone that completes the design phase of the programme, paving the way for operations.

“Hardware and software final qualification tests are underway, as well as a major integrated test series, including structural loads.

“Future tests will involve launch vehicle hardware such as jettison tests, acoustic tests, and, finally, a pad abort test in White Sands, New Mexico.”

ULA is also involved in the production of a launch vehicle that intends to undergo an unmanned orbital flight test (OFT) in August.

The OFT booster for the upcoming unmanned flight is currently in final assembly phase at ULA’s factory in Decatur, Alabama, US. ULA has also completed pressure testing for the OFT Centaur upper stage.

Other hardware such as the launch vehicle adapter and aeroskirt production are ongoing to support test articles and flight.

ULA has so far launched more than 120 satellites into orbit to help meteorologists to track severe weather, provide critical capabilities for troops in the field, and enable GPS navigation and other missions.

www.aerospace-technology

USGS researchers spot deposits of buried ice on Mars

News

Researchers from the US Geological Survey (USGS) have spotted eight sites on Mars where thick deposits of ice beneath the surface of the planet are exposed at steep slopes. Shown is a cross-section of underground ice is exposed at the steep slope that appears bright blue in this enhanced-color view from the HiRISE camera on NASA's Mars Reconnaissance Orbiter

With slopes as steep as 55°, the eight scarps are expected to unveil new data on the internal layered structure of previously found underground ice sheets in Mars’ middle latitudes, as well as the planet’s climate history.

The discovery was made using the University of Arizona-led HiRISE camera aboard Nasa’s Mars Reconnaissance Orbiter (MRO).

“What we’ve seen here are cross-sections through the ice that give us a 3D view with more detail than ever before.”

HiRISE also revealed that the newly found sites are situated in both the northern and southern hemispheres of Mars and equivalent to Scotland or the tip of South America in size.

Believed to have amassed as snow long ago, the deposits are exposed in cross-sections as relatively pure water ice and could provide a source of drinking water for future astronauts visiting Mars.

USGS Arizona Astrogeology Science Center researcher and lead author of the research Colin Dundas said: “There is shallow ground ice under roughly a third of the Martian surface, which records the recent history of Mars.

“What we’ve seen here are cross-sections through the ice that give us a 3D view with more detail than ever before.”

Findings of the latest research have also suggested that the eight new sites could offer a direct access to ice at latitudes with less hostile conditions than those at Mars’ polar ice caps.

A cross-section of underground ice is exposed at the steep slope that appears bright blue in this enhanced-color view from the HiRISE camera on NASA's Mars Reconnaissance Orbiter
http://www.aerospace-technology.com/news/usgs-researchers-spot-deposits-buried-…

Solvay and Boeing sign materials supply deal for 777X programme

News

Solvay says it has signed an agreement with Boeing for the supply of advanced composites and adhesives in support of the 777X aircraft production.

Solvay will be supplying a range of material technologies including out-of-autoclave structural carbon fibre epoxy prepreg, flame resistant interior phenolic prepreg, lightning strike protection surfacing film and structural bonding adhesive. These materials will support applications across the entire 777X including the vertical and horizontal stabilisers, the nacelle, landing gear doors, wings and interior structures.

“Boeing is one of Solvay’s key strategic partners and the signature of this agreement demonstrates our ability to develop material solutions that meet Boeing’s technical, supply and cost challenges,” said Carmelo Lo Faro, president of Solvay’s Composite Materials Global Business Unit. “Our teams look forward to continuing their collaboration with Boeing and to supporting the production of the 777X.”

Aerospace Manufacturing

New Study Accelerates Development of Hypersonic Planes with Nanotechnology

News
NASA Materials Research
Materials Genome Initiative

The time taken for an average flight from Miami to Seattle is about six hours and 40 minutes, but imagine if it were possible to reduce that time to 50 minutes or less. A new study by Researchers at NASA and Binghamton University, State University of New York, could result in a substantial decrease in flight times.

The study, funded partly by the U.S. Air Force, is one of the principal steps toward the development of planes capable of moving at hypersonic speeds, five to 10 times the speed of sound. There are presently quite a few problems when it comes to construction of these super planes, said Binghamton University Associate Professor of Mechanical Engineering Changhong Ke. The first of which is identifying a material that can handle hypersonic travel.

Normally, carbon nanotubes have been employed in planes for their strength - they are stronger than steel - and their ability to conduct heat. However, BNNTs possess high potential when it comes to air travel.

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Victrex: $13m facility opens to help accelerate innovation trend

News
Computational Materials
Nanomaterial Manufacturing

Proactive investment in the development of next-generation thermoplastic solutions has resulted in the completion of Victrex’s new approximately £10 million Polymer Innovation Center.

The centre is fully operational and represents Victrex´s dedication to pioneering research and development focused upon Victrex PEEK polymer and other differentiated grades within the PAEK family of high performance thermoplastics. Recent innovations include the introduction of Victrex AE250 composites for the aerospace industry, which ties in with the company’s polymer-to-parts strategy.

The Polymer Innovation Center will further extend Victrex’s capabilities in innovation and assist customers in the development of technological advances using Victrex PAEK solutions. Co-located at the company´s UK headquarters, the new centre will function as an enabler for rapid prototyping of new parts and components with novel PAEK materials. The manufacture of new and differentiated polyaryletherketones on a technical scale will help in the research and testing of high-performance polymer grades aimed at achieving progress in, for example, composites and 3D printing/additive manufacturing. Victrex is currently leading a consortium backed by Innovate UK to focus on 3D printing. Helping to improve the process for manufacturing existing polymers will also be supported by the new center.

Full Article at aero-mag.com

Germany and Canada Launch Joint Aviation Research Programme

News
Computational Materials

Germany and Canada have introduced a new cooperative research and development programme to develop quieter aircraft cabins and fireproof composite fibre components.

The three-year programme is part of Germany’s Federal Ministry of Education and Research’s (BMBF) New High-Tech strategy.

The programme will receive a total of €12m in funding from the governmental and commercial entities of both Germany and Canada, with each country contributing 50% of the total value.

Jointly coordinated by Hamburg’s ZAL Center of Applied Aeronautical Research and Canada’s CRIAQ research consortium, the programme will involve a total of 20 partners, which includes a number of companies, universities and research institutions.

According to Hamburg Aviation, while aircraft engines are now quieter, noise and vibration continue to be shifted to the inside of the aircraft via the outer skin of the fuselage, particularly during take-off.

Read More at aerospace-technology.com

Orbital ATK tests motor case for next-gen launch vehicle

News
NASA Materials Research

Orbital ATK (Dulles, VA, US) reported on Nov. 7 that it has successfully completed an important milestone in developing advanced solid rocket propulsion and other technologies to be used in a new generation of intermediate- and large-class space launch vehicles. The company is in early production of development hardware for its Next Generation Launch (NGL) system, and on Oct. 27 successfully completed the structural acceptance test on the first motor high-strength composite case for this program.

The applied structural loads during the test demonstrated more than 110% of maximum expected motor operating pressure and 110% of operational/flight and pre-launch compression/tensile line loads. This full-scale motor case segment will be cast with inert solid rocket propellant in early 2018 and shipped to the launch site for check-out of ground operations.

“NGL is one of Orbital ATK’s top growth initiatives,” says Scott Lehr, president of Orbital ATK’s Flight Systems Group. “This milestone clearly shows the progress being made by the hundreds of engineers and technicians in Utah and Arizona who are developing the NGL system.”

Orbital ATK Launch Vehicle
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Solvay, Strata joint venture to supply Boeing with composite materials

News
Computational Materials

Solvay Composite Materials (Brussels) and Strata (Dubai) have formalized their Joint Venture (JV) to supply Boeing with advanced composite materials from a high-tech facility to be built in Al Ain. Following the signature of the JV agreement, the parties will seek anti-trust approvals.

The equal ownership joint venture will be the UAE’s first supplier of pre-impregnated carbon fibers.

The partnership marks Solvay’s entry into advanced materials manufacturing in the UAE, and Mubadala’s entry into advanced materials manufacturing for the aerospace industry through its wholly owned business, Strata Manufacturing.

“Over the last ten years, Mubadala has helped to create an advanced and sustainable aerospace industry in line with Abu Dhabi’s economic diversification vision,” said Khaled Abdulla Al Qubaisi, CEO Aerospace, Renewables and ICT, Mubadala. “This agreement with Solvay fits perfectly with our growth strategy, focusing as it does on high-tech manufacturing capabilities, and demonstrates our commitment to providing competitive offerings to the world’s leading OEMs.”

“This joint venture showcases Solvay’s capabilities in advanced aerospace composite technologies, including for aircraft primary structures as a growth pillar for our materials business,” said Jean-Pierre Clamadieu, CEO of Solvay.

The new approximately 8,500 square meter facility will supply Boeing with carbon fiber prepreg for primary structure applications in its new 777X program. Solvay’s prepreg technology consists of fiber reinforcements pre-impregnated with a resin matrix to manufacture composite parts, providing exceptional performance at lower weight compared to metal structures.

CompositsWorld.com

Solvay acquires European Carbon Fiber GmbH

News
Computational Materials
Materials Genome Initiative

Solvay Composite Materials (Alpharetta, Ga.) has acquired European Carbon Fiber GmbH (ECF), a German producer of high-quality precursor for large-tow (50K) polyacrylonitrile (PAN) carbon fibers. With this acquisition, Solvay is building the foundations to lead the adoption of composites in automotive applications, to serve select industrial markets, and to support the potential adoption of large-tow fibers in aerospace.

“The strategic acquisition of ECF enables Solvay to develop a portfolio of large-tow carbon fibers to complement our existing range of pitch and PAN aerospace grade carbon fibers. This comprehensive portfolio will place Solvay as a key supplier to the aerospace, automotive and industrial markets going forward. Thanks to this acquisition Solvay will leverage its polymers and materials science competencies to drive breakthrough innovation in large-tow carbon fibers,” stated Carmelo Lo Faro, president of Solvay’s Composite Materials Global Business Unit (GBU).

Vertical integration into large-tow carbon fiber technology will position Solvay to ensure cost effective long-term security of supply to its customers.

CompositsWorld.com

NASA Selects Instrument for Future International Mission to Martian Moons

News

NASA has selected a science instrument for an upcoming Japan-led sample return mission to the moons of Mars planned for launch in 2024. The instrument, a sophisticated neutron and gamma-ray spectrograph, will help scientists resolve one of the most enduring mysteries of the Red Planet -- when and how the small moons formed.

The Mars Moons eXploration (MMX) mission is in development by the Japan Aerospace Exploration Agency (JAXA). MMX will visit the two Martian moons, Phobos and Deimos, land on the surface of Phobos, and collect a surface sample. Plans are for the sample to be returned to Earth in 2029. NASA is supporting the development of one of the spacecraft’s suite of seven science instruments.

“Solving the riddle of how Mars’ moons came to be will help us better understand how planets formed around our Sun and, in turn, around other stars,” said Thomas Zurbuchen, associate administrator for NASA’s Science Mission Directorate (SMD) at Headquarters in Washington. “International partnerships like this provide high-quality science with high- impact return.”

The selected instrument, named MEGANE (pronounced meh-gah-nay, meaning “eyeglasses” in Japanese), will be developed by a team led by David Lawrence of the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland. MEGANE will give MMX the ability to “see” the elemental composition of Phobos, by measuring the energies of neutrons and gamma-rays emitted from the small moon. The elementary particles are emitted naturally as a result of the high-energy cosmic rays and solar energetic particles that continually strike and penetrate the surface of Phobos.

Artist’s concept of Japan’s Mars Moons eXploration (MMX) spacecraft, carrying a NASA instrument to study the Martian moons Phobos and Deimos.
Read More at NASA

NASA Space Station Cargo Launches Aboard Orbital ATK Mission

News
NASA Materials Research

The International Space Station will receive about 7,400 pounds of cargo, including new science and technology investigations, following the successful launch of Orbital ATK’s Cygnus spacecraft from NASA’s Wallops Flight Facility in Virginia Sunday.

Orbital ATK’s eighth contracted cargo delivery flight to the station launched at 7:19 a.m. EST on an Antares rocket from Pad 0A at Wallops, and is scheduled to arrive at the International Space Station Tuesday, Nov. 14.

This is the fifth flight of an enhanced Cygnus spacecraft, and the second using Orbital ATK’s upgraded Antares rocket. The spacecraft for this mission is named in honor of Gene Cernan, the last human to step foot on the Moon. Cernan, who passed away in January at age 82, set records for both lunar surface extravehicular activities and the longest time in lunar orbit.

Expedition 53 astronauts Paolo Nespoli of ESA (European Space Agency) and Randy Bresnik of NASA will use the space station’s robotic arm to grapple Cygnus, about 4:50 a.m. Tuesday. Cygnus will remain at the space station until Dec. 4, when the spacecraft will depart the station and deploy several CubeSats before its fiery re-entry into Earth’s atmosphere as it disposes of several tons of trash.

The resupply mission will support dozens of new and existing investigations as Expeditions 53 and 54 contribute to about 250 science and research studies.

Launch of Orbital ATK’s Cygnus spacecraft
Read More at NASA

NASA Offers Access to Cygnus Spacecraft Ahead of Next Space Station Mission

News
Nanomaterial Manufacturing

Media are invited to view and photograph Orbital ATK’s Cygnus spacecraft, packed with cargo and scientific experiments for its upcoming flight to the International Space Station, at 10:30 a.m. EDT Wednesday, Oct. 18, at NASA’s Wallops Flight Facility on Wallops Island, Virginia.

Media also will have an opportunity to speak with NASA and Orbital ATK officials about the targeted no earlier than Nov. 10 mission and the space agency’s effort to send supplies to the space station using commercial companies. The officials available at the event include:

  • Sam Scimemi, director for the International Space Station, NASA Headquarters, Washington
  • Rick Mastracchio, senior director of operations, commercial resupply services program, Orbital ATK, Dulles, Virginia
  • Kurt Eberly, vice president, Antares, Orbital ATK

To attend this event, media must apply for accreditation by contacting Keith Koehler at keith.a.koehler@nasa.gov by noon, Tuesday, Oct. 17. Accreditation is open only to media who are U.S. citizens.

Orbital ATK’s Cygnus spacecraft
Full Article at NASA

Nasa’s OSIRIS-REx spacecraft slingshot past Earth to hunt asteroid Bennu

News
NASA Materials Research

Nasa’s Origins, Spectral Interpretation, Resource Identification, and Security - Regolith Explorer (OSIRIS-Rex) asteroid-hunting spacecraft has flown past Earth, using the planet’s gravity to slingshot itself towards its destination asteroid, Bennu.

Launched last September, the OSIRIS-Rex mission received the latest gravity boost when it came within 17,237km of Antarctica, south of Cape Horn, Chile.

The boost has forced the spacecraft to follow a new route north over the Pacific Ocean and has changed its velocity to 3.778km/s.

Bennu’s current orbit around the Sun is tilted 6° from Earth’s orbit, and the latest thrust has changed OSIRIS-Rex’s direction to manoeuvre it towards the asteroid.

Nasa’s OSIRIS-REx spacecraft
aerospace-technology.com

UTA Researcher Aims for Longer-Lasting Composite Materials for Aircraft Components

News
Computational Materials
Materials Genome Initiative
Nanomaterial Testing

Boeing has given a $600,000 grant to the University of Texas at Arlington to test composite components that officials believe will pave the way towards longer-lasting aircraft as well as help identify when those components might fail.

The project’s title is “Advanced Inspection and Analysis of Common Feature Test Component for Composite Airframe Life Extension Program.”

Andrew Makeev, UTA Professor of Mechanical and Aerospace Engineering and Director of the Advanced Materials and Structures Lab, will lead the project. Endel Iarve, a Professor of Mechanical and Aerospace Engineering who works in the UTA Research Institute’s Institute for Predictive Performance Methodologies, is the Co-principal Investigator.

Full article

Nasa partners with Roscosmos to further develop manned Moon mission

News

Nasa has signed a joint statement with the Russian Space Agency Roscosmos to further develop the deep space gateway concept, which aims to enable human space exploration in the vicinity of the Moon.

The deep space gateway is also expected to confirm Nasa’s capabilities for sending manned missions beyond the Moon and deep into the solar system, including Mars.

Nasa has also engaged other industry partners to conduct additional studies for the gateway concept.

Nasa Washington headquarters acting administrator Robert Lightfoot said: “While the deep space gateway is still in concept formulation, Nasa is pleased to see growing international interest in moving into cislunar space as the next step for advancing human space exploration.

aerospacetechnology.com for full article

NASA Statement on National Space Council Policy for Future American Leadership in Space

News

The following is a statement from acting NASA Administrator Robert Lightfoot about the results from the first meeting of the National Space Council on Thursday:

“It was my pleasure today to attend the first meeting of the new National Space Council. The council includes government leaders from civil and military space, and the group also heard from space industry leaders. The council has historic roots in the earliest days of the Space Age, and it has been established by the president to streamline and coordinate national space policy.

“The council is chaired by Vice President Mike Pence, who continues to demonstrate extraordinary interest in our work. In fact, he recently visited the Marshall Space Flight Center, Johnson Space Center and the Kennedy Space Center. He addressed the workforce at our centers with great passion and introduced our new astronaut candidates class. At today’s meeting he made it clear that space is a national priority.

Visit NASA to read more

Solvay Adds Polymer Data to Digimat-MX Database

News
Nanomaterial Manufacturing

Solvay has added data relative to new Amodel polyphthalamide (PPA), Ryton polyphenylene sulphide (PPS) and KetaSpire polyetheretherketone (PEEK) polymer grades to the Digimat-MX database tool of Digimat software from e-Xstream engineering, to store anisotropic measurements and related micromechanical models.

“As a leading innovator in plastic to metal substitution, Solvay offers advanced computer modelling to its customers and is committed to help them effectively simulate the mechanical performance of its materials when designing lightweight fibre-reinforced thermoplastic composite parts,” reports Michel Dubois, Global Technical Expertise Manager for Solvay’s Speciality Polymers Global Business Unit. “The addition of these Solvay grades to the Digimat-MX library signals an important new phase to further support design and simulation experts seeking to replace metal parts with lightweight advanced polymers and composites.”

Read More at NetComposites

Spaceflight secures Nasa contract to launch 24 U-Class payloads

News
NASA Materials Research

US-based satellite rideshare and mission management provider Spaceflight has won a contract from Nasa to launch up to 24 U-Class payloads.

The contracted launch procedure has a potential value of more than $5m and is expected to be carried out next year.

The multi-year deal also includes options for the launch of up to 24 additional payloads, which are slated to be lifted off by 2019 and 2020.

U-Class payloads are small space research satellites that typically use unique and commercial electronic components.

The majority of Nasa’s U-Class payloads are developed by universities and non-profit organisations, and are designed to play significant roles in Nasa’s technological development.

U-Class payloads are small space research satellites that typically use unique and commercial electronic components.
Read More

New Study Accelerates Development of Hypersonic Planes with Nanotechnology

Materials Genome Initiative
Nanomaterial Discovery

The time taken for an average flight from Miami to Seattle is about six hours and 40 minutes, but imagine if it were possible to reduce that time to 50 minutes or less. A new study by Researchers at NASA and Binghamton University, State University of New York, could result in a substantial decrease in flight times.

The study, funded partly by the U.S. Air Force, is one of the principal steps toward the development of planes capable of moving at hypersonic speeds, five to 10 times the speed of sound.

AZO Materials

NASA’s Cassini Spacecraft Ends Its Historic Exploration of Saturn

News
NASA Materials Research

A thrilling epoch in the exploration of our solar system came to a close today, as NASA's Cassini spacecraft made a fateful plunge into the atmosphere of Saturn, ending its 13-year tour of the ringed planet.

"This is the final chapter of an amazing mission, but it’s also a new beginning,” said Thomas Zurbuchen, associate administrator for NASA's Science Mission Directorate at NASA Headquarters in Washington. “Cassini’s discovery of ocean worlds at Titan and Enceladus changed everything, shaking our views to the core about surprising places to search for potential life beyond Earth."

Read More

Media Invited to View NASA Spacecraft That Will Touch Our Sun

News
NASA Materials Research

NASA’s Parker Solar Probe will be humanity’s first-ever mission to explore the Sun’s outer atmosphere. Media are invited to see the spacecraft and learn about the mission from noon to 2 p.m. EDT Monday, Sept. 25, at Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Maryland, where the probe is being built.

The spacecraft will be in full flight configuration, complete with its revolutionary heat shield, and members of the engineering and science teams conducting this historical mission will be available for interviews.

The spacecraft, about the size of a small car, will launch in mid-summer 2018. It will travel directly through the Sun's atmosphere about four million miles from our star's surface – facing heat and radiation unlike any spacecraft in history – and make critical observations to answer decades-old questions about how stars work. Mission data ultimately will improve forecasts of major space weather events that affect life on Earth, as well as satellites and astronauts in space.

Parker Solar Probe
Parker Solar Probe Mission

Texas Scientists Create Computer Simulations Previewing Total Solar Eclipse

News

A research team from Predictive Science Inc. (PSI) used the Stampede2 supercomputer at The University of Texas at Austin’s Texas Advanced Computing Center (TACC) to forecast the corona of the sun during the upcoming eclipse, university officials said on Thursday. The findings shed light on what the eclipse of the sun might look like Aug. 21 when it will be visible across much of the U.S., tracing a 70-mile-wide band across 14 states, researchers added with palpable excitement.

By tracing magnetic field lines at extremely high resolution, researchers highlight the inherent complexity of the Sun’s magnetic field and its intimate connection to visible emission from the solar corona.

Advanced computational resources forecast the corona of the sun during the recent eclipse
Computational model of predicted sun's corona

Solvay Commences PEKK Resin Production for Aerospace Market

News
Computational Materials

Solvay will begin production of polyetherketoneketone (PEKK) polymers in the US next year to support its composite materials business in meeting growing aerospace demand.

“Solvay further affirms its unique position in lightweighting materials by joining the forces of its high-performance speciality polymers and composite materials to produce its own PEKK resin,” says Roger Kearns, member of Solvay’s Executive Committee. “This new capacity will address fast-growing demand for thermoplastic composites and 3D printing components in aerospace and in other markets.”

Solvay will commence PEKK production at its site in Augusta, Georgia, under the trade name NovaSpire.

PEKK is used in thermoplastic composites reinforced with carbon fibres and in additive manufacturing.

NetComposites News

Altair Acquires Componeering

News

Altair has acquired Componeering of Helsinki, Finland, developer of the ESAComp composites simulation software.

Componeering is now Altair Engineering Finland.

Originating through a European Space Agency (ESA) project, the use of ESAComp has expanded beyond aerospace to numerous other industries where composite material structures are found, including marine, automotive, rail, alternative energy and machinery.

NetComposites

AnalySwift Software used for Composite Rotor Blade Simulation

News
Computational Materials

VABS is a general-purpose cross-sectional analysis tool for computing beam sectional properties and recovering 3D fields of slender composite structures. 

AnalySwift LLC (Salt Lake City, Utah) announced that EJ-Projects has licensed its VABS software for use in simulating composite rotor blades.

Based in the Netherlands, EJ-Projects is an engineering consultancy with specialties in modeling and simulation, loads, aeroelasticity and structural engineering. The company’s primary focus is in aerospace, turbo-machinery, and wind power technologies, and EJ-Projects has licensed VABS for composite rotor blade analysis projects, including an off-shore wind turbine project.

Composites World

SolAero Technologies wins contract for Europa Clipper Mission

News

SolAero Technologies Corp. (Albuquerque, NM, US), a provider of high-efficiency solar cells, solar panels and composite structural products for satellite and aerospace applications, has been awarded a contract by NASA’s Jet Propulsion Laboratory (NASA/JPL) for the design, manufacture and testing of solar array panels for the proposed Europa Clipper Mission. NASA’s planned Europa mission will conduct detailed reconnaissance of Jupiter’s moon Europa and investigate whether the icy moon harbors conditions suitable for life.

Europa Clipper Mission. Image credit: NASA.
Europa Clipper Mission

Northrop Grumman acquires Orbital ATK

News

Northrop Grumman Corp. (Falls Church, VA, US) and Orbital ATK, Inc. (Dulles, VA, US) announced September 18 they have entered into a definitive agreement under which Northrop Grumman will acquire Orbital ATK for approximately $7.8 billion (USD) in cash, plus the assumption of $1.4 billion in net debt.

Composites World

Hengshen to Supply Prepreg to Bombardier for Qualification

News

China-based carbon fiber and prepreg manufacturer Hengshen will supply aircraft manufacturer Bombardier with prepreg for qualification and potential production application.

Carbon fiber and prepreg manufacturer Hengshen Co. Ltd. (Jiangsu Sheng, China) reported on Sept. 18 that it has signed a strategic cooperation agreement for the supply of carbon fiber prepreg to Canadian aircraft manufacturer Bombardier (Montreal, QC, Canada).

Composites World

Flexible Manufacturing System for Airbus Wing Components

News
Nanomaterial Manufacturing

A flexible manufacturing system (FMS) for producing small to medium-size wing components for the Airbus A330 family of long-range, wide-body jetliners has started operation at a leading aerospace subcontractor in the south of England.

Flexible manufacturing system
Flexible Manufacturing System (FMS)

Hexcel launches £7.4m project to create new carbon fibre fabrics for aircraft parts

News
Computational Materials

Hexcel, a leader in advanced composites technologies, has announced it will be launching a new Government-backed £7.4 million research and development project, MAXIM, and expanding its manufacturing facility in Leicester.

The four-year Multi Axial Infused Materials (MAXIM) project, backed by the UK Aerospace Technology Institute (ATI) and match-funded by the Department for Business Energy and Industrial Strategy, will be responsible for developing progressive, cost-effective materials and manufacturing solutions for large aerospace and automotive composite structures.

Advanced Composites Technologies
Advanced Composites Technologies

Hartzell Propeller, Raisbeck Engineering debut composite-blade props

News
Computational Materials

Hartzell Propeller and Raisbeck Engineering are collaborating on new structural composite swept blade props for the Beechcraft King Air 350 turboprop. Hartzell Propeller's exhibit at EAA AirVenture Oshkosh 2017 will feature a King Air 350 modified by Raisbeck Engineering with Hartzell's newest structural composite 106" diameter, lightweight five-blade propellers.

The aircraft will be at Hartzell's Booth 296-297 in the Main Aircraft Display Area during EAA AirVenture. Hartzell designed and manufactures the King Air propellers and Raisbeck performed the flight tests for the supplemental type certificate (STC), which it expects soon.

The King Air 350 propellers are an extension of the propeller blade technology advancements developed jointly by Hartzell and Raisbeck for the King Air 90, King Air B200 series, and King Air 300 series aircraft.

Structural composite swept blade props improve performance of Beechcraft King Air 350 turboprop.
Hartzell Propeller

Victrex joins the Thermoplastic Composites Research Center

News
Materials Genome Initiative

The ThermoPlastic composites Research Center (TPRC), Enschede, The Netherlands, has a new Tier 1 member: Victrex, which recently introduced the Victrex AE250 composite family based on polyaryletherketone (PAEK) polymer. Planned joint activities will concentrate on the acceleration and proliferation of new technologies with the aim of addressing industry needs regarding costs, speed of manufacturing, and assembly of aircraft components.

TPRC has an extensive thermoplastic (TP) processing knowledge, Victrex has in-depth expertise in PAEK materials and applications in combination with a new hybrid molding technology. As a Tier 1 member, Victrex will work alongside other Tier 1 and Tier 2 members, such as Boeing, Daher, Dedienne Aerospace, TenCate, and Vaupell | SB aero.

Aerospace grid stiffened demonstration panel - thermoplastic composite using Victrex PAEK-based solutions.
Aerospace grid stiffened demonstration panel

Aerospace Materials Market 2017 - Global Forecast to 2022: Increasing Demand for Lightweight and More Efficient Aircraft

News
Materials Genome Initiative

DUBLIN, September 20, 2017 /PRNewswire/ --

The "Aerospace Materials Market by Type, Aircraft Type and Region - Global Forecast to 2022" report has been added to Research and Markets' offering.

The global aerospace materials market is projected to reach USD 25.80 Billion by 2022, at a CAGR of 6.9% from 2017 to 2022. Increased passenger transportation is projected to enhance the aircraft production industry, which will further drive the demand for aerospace materials.

North America dominated the aerospace materials market in 2016 and is expected to continue its dominance during the forecast period. The U.S. is the major consumer of aerospace materials and the demand for aerospace materials is expected to increase during the forecast period in North America. The high demand for aerospace materials is primarily due to the presence of top aircraft manufacturers such as Boeing, Lockheed Martin, and others in the region.

markets.businessinsider.com

Epoxy Development

Computational Materials
Materials Genome Initiative

The primary technical role that Michigan Tech will play is in the development and use of advanced computer modeling methods to facilitate the development of these materials to enhance the Materials Genome Initiative, while also aligning with the STRI from NASA. The materials can be designed and simulated in a computational environment relatively quickly, which will save time and money in the overall material development process. Our high-performance computer cluster SUPERIOR will play a major role.

epoxy

Leading through Research

NASA Materials Research
Materials Genome Initiative

A presentation on the progress of the Materials Genome Initiative.

Watch Video

Materials Genome Progress

Materials Genome Initiative

The Materials Genome Initiative, launched in 2011, was started to bring together the best minds in materials research to help businesses discover, develop, and deploy new materials at a faster rate than traditional industry timelines. This video shows the progress made in the first three years of the initiative.

Watch Video

Materials Genome Initiative Launched

Materials Genome Initiative

The Materials Genome Initiative was established as a collaboration to advance materials into innovative products such as light-weight cars, more efficient solar cells, tougher body armor, and future spacecraft much faster and at a fraction of the cost than it has taken in the past. 

Advancing Materials

Researchers Leading Students

Computational Materials

Students at Michigan Tech and 10 partner universities across the United States have the opportunity both in undergraduate and graduate capacities to participate in faculty-led research in materials to develop and deploy a carbon nanotube-based, ultra-high strength, lightweight aerospace structural material within five years.

student research

NASA Selects US-COMP

Computational Materials
NASA Materials Research
Nanomaterial Manufacturing

NASA is funding the future of materials development through not only research, but also through education by training future engineers and researchers in the field of computation, manufacturing, material synthesis, and testing. 

Funding the Future
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