LEADER 01256cam0-22004451i-450- 001 990001222620403321 005 20050706105710.0 010 $a88-207-0227-4 035 $a000122262 035 $aFED01000122262 035 $a(Aleph)000122262FED01 035 $a000122262 100 $a20001205d1980----km-y0itay50------ba 101 0 $aita 102 $aIT 105 $aa-------001yy 200 1 $aProgrammazione dei calcolatori elettronici$fBruno Fadini, Carlo Savy 210 $aNapoli$cLiguori$d1980 215 $a762 p.$cill.$d24 cm 225 1 $aInformatica$v1 610 0 $aProgrammazione su elaboratori elettronici 610 0 $aElaboratori elettronici$aProgrammazione 676 $a005.2 676 $a005.1 700 1$aFadini,$bBruno$f<1937-2007>$0331110 701 1$aSavy,$bCarlo$0651 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990001222620403321 952 $a8-M-21$b15$fMA1 952 $a13 F 64 11$b8431$fFINBC 952 $a13 B 57 15$b6016$fFINBC 952 $a13 H 43 11$b12288$fFINBC 952 $a02 50 B 17$b3502$fFINBN 959 $aMA1 959 $aFINBC 959 $aFINBN 962 $a68NXX 996 $aProgrammazione dei calcolatori elettronici$9318519 997 $aUNINA LEADER 00779nam0-22002891i-450- 001 990000892530403321 005 20001010 035 $a000089253 035 $aFED01000089253 035 $a(Aleph)000089253FED01 035 $a000089253 100 $a20001010d--------km-y0itay50------ba 101 0 $aita 105 $ay-------001yy 200 1 $a<>Caustics and Vibrations Physics 210 $aLondon$cEdward Arnold Publishers$d1966. 215 $ap.818$cill.$dcm 23 610 0 $aDinamica , Sismica 700 1$aStephens,$bR.W.B.$013225 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990000892530403321 952 $a03 D.0,51$b1765$fIINTC 959 $aIINTC 996 $aCaustics and Vibrations Physics$9357228 997 $aUNINA DB $aING01 LEADER 03641nam 22007335 450 001 9910437811003321 005 20250616094748.0 010 $a9781299337428 010 $a1299337422 010 $a9783642354137 010 $a3642354130 024 7 $a10.1007/978-3-642-35413-7 035 $a(PPN)168328615 035 $a(OCoLC)841800148 035 $a(MiFhGG)GVRL6VZE 035 $a(CKB)2550000001017960 035 $a(MiAaPQ)EBC1106201 035 $a(MiFhGG)9783642354137 035 $a(DE-He213)978-3-642-35413-7 035 $a(EXLCZ)992550000001017960 100 $a20130130d2013 u| 0 101 0 $aeng 135 $aurun#---uuuua 181 $ctxt 182 $cc 183 $acr 200 10$aIn-situ Small-Angle X-ray Scattering Investigation of Transient Nanostructure of Multi-phase Polymer Materials Under Mechanical Deformation /$fby Ahmad Zeinolebadi 205 $a1st ed. 2013. 210 1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer,$d2013. 215 $a1 online resource (xvi, 106 pages) $cillustrations (some color) 225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061 300 $a"Doctoral thesis accepted by the University of Hamburg, Germany." 311 08$a9783642354120 311 08$a3642354122 320 $aIncludes bibliographical references and index. 327 $aIntroduction -- Experimental Part -- Data Evaluation -- Thermoplastic Polyurethane Elastomers Under Uniaxial Deformation -- Polypropylene/Montmorillonite Nanocomposites: Continuous Stretching and Load-Cycling -- HDPE/PA Microfibrillar Composites Under Load-Cycling -- Summary and Future Works. 330 $aThe results in this dissertation set the ground to answer a fundamental question in data-driven polymer material science: "Why don't prepared composites show less fatigue than the pure plastics?" A simultaneous analysis of mechanical testing and small angle X-Ray scattering from the DESY source in Hamburg has been applied to approach this question, which is also central to the European research project "Nanotough", and the results are clearly presented in this book. The evolution of the materials structure is visualized and quantitatively analyzed from exhaustive sequences of scattering images. Three different classes of polymer composites are presented as typical and illustrative examples. 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