LEADER 01751nam0-2200373-i-450- 001 990004592880403321 005 20140407135617.0 035 $a000459288 035 $aFED01000459288 035 $a(Aleph)000459288FED01 035 $a000459288 100 $a19990604d1748----km-y0itay50------ba 101 0 $agrc$alat 102 $aIT 140 $aacgia---aaa------lcdbb0010-- 200 1 $aTheodoriti episcopi Cyri et Evagrii Scholastici Historia ecclesiastica. Item excerpta ex historiis Philostorgii, & Theodoris lectoris. Henricus Valesius Gręca ex Mss. codicibus emendavit, Latine vertit, & adnotationibus illustravit. Accesserunt criticae plurium eruditorum observationes, & variantes lectiones, quibus Guilielmus Reading editionem suam Cantabrigiensem locupletavit$d= Theod?ritou episkopou Kurou kai Euagriou Scholastikou Ekklestiastike istoria. Eklogai apo t?n istori?n Philostorgiou kai Theod?rou. 210 $aAugustę Taurinorum$cEx Regia Typographia$d1748 215 $aXXIV, 598 p.$d40 cm 300 $aTesto greco e trad. latina in colonne, a fronte 500 10$aHistoria ecclesiastica$m$951136 510 1 $aTheod?ritou episkopou Kurou kai Euagriou Scholastikou Ekklestiastike istoria. Eklogai apo t?n istori?n Philostorgiou kai Theod?rou 620 $aItalia$dTorino 676 $a270$zita 700 1$aTheodoretus Cyrensis$f<4.-5. saec.>$0405242 702 1$aEvagrius :$cScholasticus$f 702 1$aReading,$bGulielmus 702 1$aValesius,$bHenricus 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aAQ 912 $a990004592880403321 952 $aSG 200/C 28$bbibl.27743$fFLFBC 959 $aFLFBC 996 $aHistoria ecclesiastica$951136 997 $aUNINA LEADER 01419nam2-2200397li-450 001 990000213840203316 005 20180312154831.0 010 $a3-540-66461-0 035 $a0021384 035 $aUSA010021384 035 $a(ALEPH)000021384USA01 035 $a0021384 100 $a20001109d1999----km-y0itay0103----ba 101 0 $aeng 102 $aGW 200 1 $aOperator algebras generated by commuting projections, a vector measure approach$fWerner Ricker 210 $aBerlino$cSpringer-Verlag$dcopyr. 1999 215 $aIX, 159 p.$cill.$d22 cm 225 2 $aLecture notes in mathematics$v1711 410 0$10010021263$12001$aLecture notes in mathematics$ea collection of informal reports and seminars$fedited by A. Dold, Heidelberg and B. Eckmann, Zürich 610 1 $aoperatori (matematica) 610 1 $ateoria della misura 676 $a515724$9Teoria degli operatori 700 1$aRicker,$bWerner$062482 801 $aSistema bibliotecario di Ateneo dell' Universitą di Salerno$gRICA 912 $a990000213840203316 951 $a510 LNM (1711)$b0024047 CBS$c510$d00110638 959 $aBK 969 $aSCI 979 $c19990109 979 $c20001110$lUSA01$h1714 979 $aALANDI$b90$c20011210$lUSA01$h1142 979 $c20020403$lUSA01$h1629 979 $aPATRY$b90$c20040406$lUSA01$h1615 996 $aOperator algebras generated by commuting projections$978775 997 $aUNISA LEADER 07822nam 2200661 450 001 9910139588303321 005 20170815145002.0 010 $a1-283-26814-0 010 $a9786613268143 010 $a1-118-09287-2 010 $a1-118-09286-4 010 $a1-118-09288-0 035 $a(CKB)2550000000051761 035 $a(EBL)697531 035 $a(OCoLC)757511586 035 $a(SSID)ssj0000540989 035 $a(PQKBManifestationID)11925923 035 $a(PQKBTitleCode)TC0000540989 035 $a(PQKBWorkID)10498361 035 $a(PQKB)10747556 035 $a(MiAaPQ)EBC697531 035 $a(MiAaPQ)EBC4031832 035 $a(EXLCZ)992550000000051761 100 $a20110517h20112011 uy| 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aRubber-clay nanocomposites $escience, technology, and applications /$fedited by Maurizio Galimberti 210 1$aHoboken, New Jersey :$cJohn Wiley & Sons,$d[2011] 210 4$d©2011 215 $a1 online resource (627 p.) 300 $aDescription based upon print version of record. 311 $a0-470-56210-2 320 $aIncludes bibliographical references and index. 327 $aSECTION I. CLAYS FOR NANOCOMPOSITES. -- 1. Clays and clay minerals. -- 1.1 What's in a name. -- 1.2 Multiscale organization of clay minerals. -- 1.3 Intimate organization of the layer. -- 1.4 Most relevant physic-chemical properties of clay minerals. -- 1.5 Availability of natural clays and synthetic clay minerals. -- 1.6 Clays and (modified) clay minerals as fillers. -- 1.7 References. -- 2. Organophilic Clay Minerals. -- 2.1 Organoohilicity-Lipophilicity and the Hydrophilic Balance (HLB). -- 2.2 From clays to organoclays in polymer technology. -- 2.3 Methods of organoclays synthesis. -- 2.4 Other types of clay modifications (for clay-based nanomaterials). -- 2.5 Fine-tuning of organoclays structure properties. -- 2.6 Some introductory reflections on organo-clay polymer nanocomposites. -- 2.7 References. -- 3. Industrial treatments and modification of clay minerals. -- 3.1 Bentonite: from mine to plant -- 327 $a3.2 Processing of bentonite. -- 3.3 Purification of clay. -- 3.4 Reaction of clay with organic substance. -- 3.5 Particle size modification. -- 3.6 References. -- 4. Alkylammonium Chains on Layered Clay Mineral Surfaces. -- 4.1 Structure and dynamics. -- 4.2 Thermal properties. -- 4.3 Layer separation and miscibility with polymers. -- 4.4 Mechanical properties of clay minerals. -- 4.5 References. -- 5. Chemistry of Rubber/Organoclay Nanocomposites. -- 5.1 Introduction. -- 5.2 Organic Cation decomposition in Salts, Organoclays and Polymer Nanocomposites. -- 5.3 Mechanism of thermal decomposition of Organoclays. -- 5.4 Role of organic Cations in Organoclays as rubber vulcanization activators. -- 5.5 References -- 327 $aSECTION II. PREPARATION AND CHARACTERIZATION OF RUBBER-CLAY NANOCOMPOSITES. -- 6. Processing Methods for the Preparation of Rubber-Clay Nanocomposites. -- 6.1 Introduction. -- 6.2 Latex compounding method. -- 6.3 Melt compounding. -- 6.4 Solution intercalation and in-situ polymerization intercalation. -- 6.5 Summary and prospects. -- 6.6 References. -- 7. Morphology of rubber clay nanocomposites. -- 7.1 Introduction. -- 7.2 Background for the review of RCN. -- 7.3 Rubber clay nanocomposites with pristine clays. -- 7.4 Rubber clay nanocomposites with clays modified with primary alkenylamines. -- 7.5 Rubber clay nanocomposites with clays modified with an ammonium cation having three methyls and one long alkenyl substituents. -- 7.6 Rubber clay nanocomposites with montmorillonite modified with two substituents larger than methyl. -- 7.7 Rubber clay nanocomposites with montmorillonite modified with an ammonium cation containing a polar group. -- 7.8 Rubber clay nanocomposites with monotmorillonite modified with an ammonium cation containing two long chain alkenyl substituents. -- 7.9 Proposed mechanisms for the formation of rubber clay nanocomposites. -- 7.10 References. -- 8. Rheology of rubber clay nanocomposites. -- 8.1 Introduction. -- 8.2 Rheological Behavior of Rubber/Clay Nanocomposites. -- 8.3 General remarks on rheology of Rubber/Clay Nanocomposites. -- 8.4 Overview of rheological theories of Polymer/Clay Nanocomposites. -- 8.5 Conclusion and outlook. -- 8.6 References. -- 9. Vulcanization Characteristics and C -- 327 $a13.1 Introduction. -- 13.2 Preparation methods and clay dispersion. -- 13.3 Cure characteristics. -- 13.4 Properties. -- 13.5 Outlook. -- 13.6 References. -- 14. Rubber Clay Nanocomposites based on Butyl and Halobutyl Rubbers. -- 14.1 Introduction. -- 14.2 Types of Clays useful in Butyl Rubber-Clay Nanocomposites. -- 14.3 Compatibilizer Systems for Butyl Rubber-Clay Nanocomposites. -- 14.4 Methods of Preparation of Butyl Rubber-Clay Nanocomposites. -- 14.5 Properties and Applications of Butyl Rubber-Clay Nanocomposites. -- 14. 6 Conclusions. -- 14.7 References. -- 15. Rubber Clay Nanocomposites, based on oleginic rubber (EPM, EPDM). -- 15.1 Introduction. -- 15.2 Types of Clay minerals useful in EPM, EPDM clay Nanocomposites. -- 15.3 Compatibilizer Systems for Olefinic rubber Clay Nonocomposites. -- 15.4 Preparation of EPDM Clay Nanocomposites by an in situ intercalation method. -- 15.5 Characteristics of EPDM clay nanocomposites. -- 15.6 Preparation and characteristics of EPM clay nanocomposites. -- 15.7 Conclusion. -- 16. Rubber Clay Nanocomposites, based on thermoplastic elastromers. -- 16.1 Introduction. -- 16.2 Selection of Materials. -- 16.3 Experimental. -- 16.4 Numerical. -- 16.5 Discussion of Results. -- 16.6 Summary and Conclusions. -- 16.7 Nomenclature. -- 16.8 References -- 327 $aSECTION IV. APPLICATIONS OF RUBBER: CLAY NANOCOMPOSITES. -- 17. Automotive Applications of Rubber Clay Nanocomposites. -- 17.1 Introduction. -- 17.2 Automotive application of rubber. -- 17.3 Prime requirement of different elastomeric auto components from application point of view. -- 17.4 Elastomeric nanocomposites and rubber industry. -- 17.5 Superiority of clay: clay minerals in comparison to other nano fillers. -- 17.6 Organomodified clay: clay minerals. -- 17.7 Scope of application of elastomeric nanocomposites in automotive industry. -- 17.8 Disadvantages of use of organoclay elastomeric nanocomposites in automotive industry. -- 17.9 Conclusion. -- 17.10 List of abbreviations. -- 17.11 References. -- 18 Non automotive applications of rubber- clay nanocomposites. -- 18.1 Water based nanocomposites. -- 18.2 Applications. 330 $a"This book comprehensively reviews rubber-clay nanocomposites in a handbook format for R&D professionals. Along with valuable details on synthesis, processing, and mechanics, the book includes applications of rubber-clay nanocomposites in automotive tires and as polymer fillers. In addition, it helps scientists understand processing methods for nanocomposites preparation and nanostructure characterization. This book helps promote common knowledge and interpretation of the important aspects of rubber-clay nanocomposites, clarifying the main results achieved in the field of rubbers and crosslinked rubbers - not covered by the more general books on polymer-clay nanocomposites"--$cProvided by publisher. 606 $aNanocomposites (Materials) 606 $aRubber 608 $aElectronic books. 615 0$aNanocomposites (Materials) 615 0$aRubber. 676 $a620.1/94 676 $a620.194 686 $aTEC009010$2bisacsh 702 $aGalimberti$b Maurizio 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910139588303321 996 $aRubber-clay nanocomposites$91951469 997 $aUNINA