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000090656 005__ 20180317095403.0
000090656 0247_ $$2doi$$a10.1016/S1359-6454(00)00112-9
000090656 02470 $$2DAR$$a2868
000090656 02470 $$2ISI$$a000089196800021
000090656 02470 $$2Scopus$$a2-s2.0-0034224848
000090656 037__ $$aARTICLE
000090656 245__ $$aFracture strength of alumina fiber reinforced aluminum wire with and without a torsional pre-strain
000090656 269__ $$a2000
000090656 260__ $$bElsevier Science Ltd$$c2000
000090656 336__ $$aJournal Articles
000090656 500__ $$aLaboratory for Mechanical Metallurgy, Swiss Fed. Inst. Technol. L., Lausanne, Switzerland
000090656 500__ $$a13596454 (ISSN)
000090656 500__ $$aCODEN: 00220
000090656 6531_ $$aAlumina
000090656 6531_ $$aFailure analysis
000090656 6531_ $$aFracture toughness
000090656 6531_ $$aMathematical models
000090656 6531_ $$aResidual stresses
000090656 6531_ $$aShear deformation
000090656 6531_ $$aShear stress
000090656 6531_ $$aTensile testing
000090656 6531_ $$aTorsional stress
000090656 6531_ $$aWire
000090656 6531_ $$aAlumina fiber reinforced aluminum wire
000090656 6531_ $$aFracture strength
000090656 6531_ $$aShear strain
000090656 6531_ $$aFiber reinforced metals
000090656 700__ $$0240158$$aWeber, L.$$g115064
000090656 700__ $$aCanalis-Nieto, P.
000090656 700__ $$0241273$$aRossoll, A.$$g122028
000090656 700__ $$0240159$$aMortensen, A.$$g112836
000090656 773__ $$j48$$k12$$q3235$$tActa Materialia
000090656 909CO $$ooai:infoscience.tind.io:90656$$particle$$pSTI
000090656 909C0 $$0252046$$pLMM$$xU10336
000090656 917Z8 $$x148230
000090656 937__ $$aLMM-ARTICLE-2000-002
000090656 970__ $$a268/LMM
000090656 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000090656 980__ $$aARTICLE