000095718 001__ 95718
000095718 005__ 20190812204958.0
000095718 037__ $$aCONF
000095718 245__ $$aPosition Controlled Diamagnetic Linear Conveyor
000095718 269__ $$a2006
000095718 260__ $$c2006
000095718 336__ $$aConference Papers
000095718 520__ $$aMagnetic levitation is an interesting concept in applications where friction and wear-particle contamination should be avoided. In this respect, a former study has shown that diamagnetic levitation, in conjunction with an electrodynamic impulse drive, is a promising solution for the design of a linear conveyor to be used in a micro-factory. In the present article the authors propose a contact-free position controlled diamagnetic linear drive optimized with regards to the power consumption and the load carrying capacity.
000095718 6531_ $$a[MICRO]
000095718 6531_ $$adiamagnetic
000095718 6531_ $$alevitation
000095718 6531_ $$aconveyor
000095718 6531_ $$alinear drive
000095718 6531_ $$amicrofactory
000095718 700__ $$aBarrot, Francois
000095718 700__ $$aBurns, Benjamin
000095718 700__ $$0240026$$g119941$$aChapuis, Dominique
000095718 700__ $$aBosgiraud, Thomas
000095718 700__ $$aBleuler, Hannes$$g104561$$0240027
000095718 7112_ $$dAugust 21-23, 2006$$cMartigny Switzerland$$aTenth International Symposium on Magnetic Bearings (ISMB10)
000095718 773__ $$tTenth International Symposium on Magnetic Bearings$$q75-76
000095718 8564_ $$zURL$$uhttp://www.ismb10.org
000095718 909C0 $$pLSRO$$0252016
000095718 909CO $$pSTI$$ooai:infoscience.tind.io:95718$$qGLOBAL_SET$$pconf
000095718 937__ $$aLSRO-CONF-2006-070
000095718 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000095718 980__ $$aCONF