LEADER 00995cam0-2200325---450- 001 990004685830403321 005 20160427120144.0 035 $a000468583 035 $aFED01000468583 035 $a(Aleph)000468583FED01 035 $a000468583 100 $a19990604d1991----km-y0itay50------ba 101 0 $aita 102 $aIT 105 $ay-------001gy 200 1 $aPoesie rifiutate, disperse, postume, inedite$fGiacomo Zanella$ga cura di Ginetta Auzzas e Manlio Pastore Stocchi 210 $aVicenza$cNeri Pozza$d1991 215 $aXVII, 527 p.$d20 cm 225 1 $aOpere di Giacomo Zanella$v2 676 $a851.8$v22$zita 700 1$aZanella,$bGiacomo$0179936 702 1$aAuzzas,$bGinetta 702 1$aPastore Stocchi,$bManlio$f<1935- > 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990004685830403321 952 $a851.8 ZANE 2$bDip.f.m.5791$fFLFBC 959 $aFLFBC 996 $aPoesie rifiutate, disperse, postume, inedite$9554410 997 $aUNINA LEADER 01212nam0-2200361li-450 001 990000256810203316 005 20180312154915.0 035 $a0025681 035 $aUSA010025681 035 $a(ALEPH)000025681USA01 035 $a0025681 100 $a2001997011954-------y0itay0103----ba 101 0 $aeng 102 $aUS 200 1 $a<> introduction to the calculus offinite differences$fC. H. Richardson 210 $aPrinceton (N. J.) [etc.]$cD. Van Nostrand Company$dcopyr. 1954 215 $aVI, 142 p.$cill.$d24 cm 610 1 $aequazioni alle differenze finite 676 $a51562$9Calcolo delle differenze finite 700 1$aRichardson,$bC. H.$0754681 801 $aSistema bibliotecario di Ateneo dell' Università di Salerno$gRICA 912 $a990000256810203316 951 $a515.62 RIC$b0016662/cbs$c515.62$d00221859 959 $aBK 969 $aSCI 979 $c19970108 979 $c20001110$lUSA01$h1715 979 $c20020403$lUSA01$h1634 979 $aPATRY$b90$c20040406$lUSA01$h1618 979 $aRSIAV7$b90$c20090526$lUSA01$h1320 979 $aRSIAV7$b90$c20090526$lUSA01$h1320 996 $aIntroduction to the calculus offinite differences$91518753 997 $aUNISA LEADER 06224nam 22007452 450 001 9910956417703321 005 20151005020621.0 010 $a1-107-06479-1 010 $a1-139-88800-5 010 $a1-62870-279-6 010 $a1-107-05875-9 010 $a1-107-05428-1 010 $a1-107-05528-8 010 $a1-107-05750-7 010 $a1-139-02413-2 010 $a1-107-05642-X 035 $a(CKB)2550000001095159 035 $a(EBL)1182928 035 $a(OCoLC)846495310 035 $a(SSID)ssj0000877398 035 $a(PQKBManifestationID)11523168 035 $a(PQKBTitleCode)TC0000877398 035 $a(PQKBWorkID)10908154 035 $a(PQKB)10456587 035 $a(UkCbUP)CR9781139024136 035 $a(Au-PeEL)EBL1182928 035 $a(CaPaEBR)ebr10718613 035 $a(CaONFJC)MIL501906 035 $a(MiAaPQ)EBC1182928 035 $a(PPN)261332015 035 $a(EXLCZ)992550000001095159 100 $a20110217d2013|||| uy| 0 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aPhysical gels from biological and synthetic polymers /$fMadeleine Djabourov, Ecole Superieure de physique et de chimie industrielles de la Ville de Paris, Katsuyoshi Nishinari, Osaka City University, Japan, Simon B. Ross-Murphy, University of Manchester 205 $a1st ed. 210 1$aCambridge :$cCambridge University Press,$d2013. 215 $a1 online resource (vii, 356 pages) $cdigital, PDF file(s) 300 $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015). 311 08$a0-521-76964-7 311 08$a1-299-70655-X 320 $aIncludes bibliographical references and index. 327 $aCover; Contents; Preface; 1 Introduction; 1.1 Gels from colloidal and polymer networks: a brief survey; 1.2 Structural characteristics and their study; 1.2.1 Solids versus liquids; 1.2.2 Multidisciplinary nature of gel studies; 1.3 Non-physical gels; 1.3.1 Chemical gels; 1.3.2 Hybrid organic-inorganic materials; 1.3.3 Inorganic gels; 1.4 Physical gels; 1.5 Outline of the book; Chapter 2 Techniques for the characterization of physical gels; Chapter 3 The sol-gel transition; Chapter 4 General properties of polymer networks; Chapter 5 Ionic gels; Chapter 6 Hydrophobically associated networks 327 $aChapter 7 Helical structures from neutral biopolymersChapter 8 Gelation through phase transformation in synthetic and natural polymers; Chapter 9 Colloidal gels from proteins and peptides; Chapter 10 Mixed gels; Chapter 11 Innovative systems and applications; References; 2 Techniques for the characterization of physical gels; 2.1 Introduction; 2.2 Scattering techniques; 2.2.1 Principles of scattering; 2.2.2 Scattering by a single particle; 2.2.3 Effect of particle concentration; 2.2.4 Polymer solutions; 2.3 Calorimetric studies; 2.3.1 Basic concepts 327 $a2.3.2 Differential scanning calorimetry (DSC)2.3.3 Microcalorimetry: ?DSC; 2.3.4 Isothermal titration calorimetry (ITC); 2.4 Microscopy of gel networks; 2.4.1 Transmission electron microscopy (TEM); 2.4.2 Atomic force microscopy (AFM); 2.5 Rheological characterization; 2.5.1 Small-deformation measurements; 2.5.1.1 Small-deformation oscillatory shear methods; 2.5.1.2 Controlled strain versus controlled stress; 2.5.1.3 Frequency and strain dependence; Polymer solutions; Polymer gels; 2.5.1.4 Creep and stress relaxation; 2.5.1.5 Temperature dependence; 2.5.1.6 Time-dependent systems 327 $aThe kinetic gelation experimentGelation time measurement; 2.5.1.7 Range of viscoelastic linearity; 2.5.1.8 Failure of the Cox-Merz rule; 2.5.2 Large-deformation measurements; 2.6 Role of numerical simulations; 2.6.1 Fractal dimensions; 2.6.2 Gelling or non-gelling systems?; 2.6.3 Improvements of the interaction potentials; 2.7 Conclusions; References; 3 The sol-gel transition; 3.1 Flory-Stockmayer ('classical') theory; 3.2 Percolation model; 3.3 Percolation and phase transitions; 3.3.1 Extent of the critical domain; 3.4 Percolation and gelation; 3.4.1 Winter-Chambon criteria 327 $a3.5 Experimental investigations of gelation transitions3.5.1 Percolation exponents; 3.5.2 Experimental determination by the Winter-Chambon criteria; 3.8 Zipper model; 3.9 Liquid crystal gels; 3.10 Conclusions; References; 4 General properties of polymer networks; 4.1 Chemically cross-linked networks and gels; 4.1.1 Non-linear materials formed from the reaction of functional groups; 4.1.2 Non-linear materials from preformed polymer chains; 4.1.3 Poly(acrylamide) and poly(NIPAm) gels; 4.1.4 Copolymer networks; 4.2 Theories of rubber elasticity; 4.2.1 Reel chain models; 4.3 Swelling of gels 327 $a4.3.1 Discontinuous swelling 330 $aPresenting a unique perspective on state-of-the-art physical gels, this interdisciplinary guide provides a complete, critical analysis of the field and highlights recent developments. It shows the interconnections between the key aspects of gels, from molecules and structure through to rheological and functional properties, with each chapter focusing on a different class of gel. There is also a final chapter covering innovative systems and applications, providing the information needed to understand current and future practical applications of gels in the pharmaceutical, agricultural, cosmetic, chemical and food industries. Many research teams are involved in the field of gels, including theoreticians, experimentalists and chemical engineers, but this interdisciplinary book collates and rationalises the many different points of view to provide a clear understanding of these complex systems for researchers and graduate students. 517 3 $aPhysical Gels from Biological & Synthetic Polymers 606 $aPolymer colloids 615 0$aPolymer colloids. 676 $a541/.345 700 $aDjabourov$b Madeleine$f1949-$01843910 702 $aNishinari$b Katsuyoshi 702 $aRoss-Murphy$b S. B. 801 0$bUkCbUP 801 1$bUkCbUP 906 $aBOOK 912 $a9910956417703321 996 $aPhysical gels from biological and synthetic polymers$94425874 997 $aUNINA