Swerve left to avoid that satellite

It's a serious subject. Space debris threatens the lives of astronauts and the launch of new satellites today, says Dr. Noam Eliaz, Head of the Biomaterials and Corrosion Laboratory at the School of Mechanical Engineering at Tel Aviv University. An expert in materials science and engineering, Dr. Eliaz is working with a team at Soreq NRC to create and test new materials to make the heavens safer for satellites and astronauts alike.

The oldest piece of "space junk" is the U.S. satellite Vanguard I, launched in 1958 and still in orbit. "Space debris has become a major concern recently, since collisions with such debris at ultrahigh velocities could be a disaster for spacecraft that pass through Earth's orbit," says Dr. Eliaz. "An impact could be catastrophic."

Eliaz says that the combined effects of other components in the space environment, such as atomic oxygen, might increase the damage. The researcher, a past Fulbright and Rothschild scholar at MIT, is investigating new kinds of materials that could be used on spacecraft surfaces to protect against such hazards.

Eliaz is developing nano-based materials with special mechanical properties, such as high strength and wear resistance, and controllable electrical and thermal properties. "This could lead to a superior material for the external blankets of spacecraft," says Eliaz, whose research has already been put to use by top biomedical device companies and by aircraft industries worldwide.

One candidate Eliaz and his colleagues have investigated is a hybrid nanomaterial which incorporates small silicon-containing cages that can open and react with atomic oxygen to prevent further polymer degradation.

The team includes Dr. Eitan Grossman, Head of the Materials Group within the Space Environment Section at Soreq NRC in Israel, and his staff Dr. Irina Gouzman and Ronen Verker, the latter also a Ph.D. student at TAU. Recent research by Eliaz and his colleagues at Soreq has been published in the journals Acta Materialia, Polymer and High Performance Polymers.

The team has conducted space durability studies on polymers developed by the U.S. Air Force and Hybrid Plastics Inc, and the results are being reviewed by NASA and the European Space Agency (ESA). "Our simulation studies were done on Earth to determine how space debris will impact new polymers developed to protect space vehicles," says Dr. Eliaz.

The U.S. Department of Defense recently asked Dr. Eliaz to advise them on alternatives to hard chromium plating. Now used in aircraft landing gears, chromium VI is a carcinogen, causing agencies to limit or prohibit its use.

Eliaz's research belongs to a growing field known as materials science and engineering. "This is an important area for all aspects of industry, and Tel Aviv University is a trendsetter in this field," says Eliaz. Many global companies, including GE, Intel, Motorola, Applied Materials, General Motors and IBM, have R&D centres dealing with materials development, processing and characterization, and often look to Tel Aviv University researchers for advice.

Source: American Friends of Tel Aviv University

Robot Scout: Fly Me (Safely) to the Moon
The first attempt to land humans on the moon -- Apollo 11 -- was a triumph that almost ended in disaster. At just 400 feet from the lunar surface, with only about a minute's worth of fuel remaining, astronauts Neil Armstrong and Edwin "Buzz" Aldrin saw that their ship's computer was taking them directly into a crater the size of a football field, strewn with SUV-sized boulders. They quickly took control from the computer, flew over the crater and touched down in a smoother area beyond, cutting the engine with just 30 seconds of fuel on the readout.
Home IQ: Winning technologies will make people smarter -- not their houses
Someday, we may be getting fashion advice from our mirrors. Instead of digging through our closets to find the perfect complement for a new shirt, we may hold it up to our bedroom mirror for a computer to scan. Using radio-frequency identification technology, our electronic fashion stylist will then offer suggestions based on what's in our closet or how the latest edition of Vogue or Teen Beat pairs up something similar.
Digitized student: Accelerated research using a digital camera
A researcher on a short trip to a foreign country, with little money, but a digital camera in hand has devised a novel approach to digitizing foreign archives that could speed up research.
IBM Moves Real-Time Communication and Collaboration Into 3-D
IBM Research announced a new project, dubbed "Sametime 3-D," demonstrating the integration of Lotus Sametime with several virtual environments. The project showcases the business value virtual environments can bring to the future of C
Magnetism and Superconductivity Observed to Exist in Harmony
(Physorg.com) -- Physicists at Los Alamos National Laboratory, along with colleagues at institutions in Switzerland and Canada, have observed, for the first time in a single exotic phase, a situation where magnetism and superconductivity are necessary for each other's existence.
Coatings to help medical implants connect with neurons
Plastic coatings could someday help neural implants treat conditions as diverse as Parkinson's disease and macular degeneration.
Northwestern chemists take gold, mass-produce Beijing Olympic logo
Northwestern University nanoscientist Chad A. Mirkin has mass-produced the 2008 Summer Olympics logo -- 15,000 times. All the logos take up only one square centimeter of space.
Energy Storage For Hybrid Vehicles
Hybrid technology combines the advantages of combustion engines and electric motors. Scientists are developing high-performance energy storage units, a prerequisite for effective hybrid motors.

Swerve left to avoid that satellite

Related stories:

News discussion: