| SPACE MART | SPACE DAILY | SPACE WAR | TERRA DAILY | MARS DAILY | SPACE TRAVEL | GPS DAILY | ENERGY DAILY |
 |
Den Haag - Apr 15, 2003 Research conducted in the Netherlands has revealed a previously unknown effect in graphite. The discovery was made by Martin Dienwiebel using the Tribolever, a highly-sensitive friction force microscope which he had developed himself. Dienwiebel has termed the effect superlubrication and this effect probably explains why graphite is such a good lubricant. Graphite had already been extensively studied. German physicist Martin Dienwiebel was therefore extremely surprised when he discovered a completely new effect in this well-known lubricant. During research into the frictional properties of the material, he discovered that the frictional force almost completely disappeared at a certain moment. Dienwiebel only intended to test the new friction force microscope he had developed. The Tribolever is a raster microscope which can measure frictional forces of just a few picoNewtons in three spatial dimensions. With his new instrument Dienwiebel first of all studied the frictional properties of graphite. Graphite consists of carbon atoms arranged in layers one above another. The carbon atoms in a graphite layer form a sort of undulating landscape, which is similar to an egg box. The different layers can slide over each other. However, resistance can occur during the sliding process if the hills of one layer fit exactly into the valleys of another layer. Yet if the two layers are rotated with respect to each other, there are always points within the contact surface where the hills touch each other. As a result of this the two layers cannot collapse into each other and the resistance is overcome. The researcher has termed this phenomenon superlubrication. A spray can with graphite lubricant is full of small graphite flakes. Upon spraying, these flakes land in a totally random manner. Consequently all of the flakes are automatically rotated with respect to each other and can therefore glide over each other with the minimum of resistance. The superlubricant effect discovered by Dienwiebell could be the basis of graphite's outstanding lubricating qualities. Graphite is not the only material for which the physicist wants to determine the frictional properties. As the properties of most materials change upon being exposed to air (for example, due to corrosion), Dienwiebel has also designed a friction force microscope that can work in an ultrahigh vacuum. The combination of this method with other microscopic techniques such as raster electron microscopy should make it possible to carry out a complete characterisation of friction in the future. Community Email This Article Comment On This Article Related Links Nanotribology SpaceDaily Search SpaceDaily Subscribe To SpaceDaily Express Space Technology News - Applications and Research
NGC Chosen To Proceed With Developing Solid-State Laser Technology For Military Applications
Redondo Beach CA (SPX) Jan 09, 2006Northrop Grumman Corporation has been selected to develop "military-grade," solid-state laser technology that is expected to pave the way for the U.S. military to incorporate high-energy laser systems across all services, including ships, manned and unmanned aircraft, and ground vehicles. |
|
| The content herein, unless otherwise known to be public domain, are Copyright 1995-2006 - SpaceDaily.AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA PortalReports are copyright European Space Agency. All NASA sourced material is public domain. Additionalcopyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by SpaceDaily on any Web page published or hosted by SpaceDaily. Privacy Statement |
