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200 00$aDissipative phase transitions$b[electronic resource] /$feditors, Pierluigi Colli, Nobuyuki Kenmochi, Ju?rgen Sprekels
210   $aHackensack, N.J. $cWorld Scientific$dc2006
215   $a1 online resource (321 p.)
225 1 $aSeries on advances in mathematics for applied sciences,$x1793-0901 ;$vv. 71
300   $aDescription based upon print version of record.
311   $a981-256-650-3 
320   $aIncludes bibliographical references.
327   $aCONTENTS               ; Preface              ; Mathematical models including a hysteresis operator                                                          ; 1 Introduction                     ; 2 Mathematical treatment for hysteresis operator                                                       ; 2.1 Play operator                        ; 2.2 Stop operator                        ; 2.3 The Duhem model                          ; 3 Shape memory alloys                            ; 4 Examples of hysteresis operator
327   $a4.1 Solid-liquid phase transition                                        4.2 Biological model                           ; 4.3 Magnetostrictive thin film multi-layers                                                  ; References                 ; Modelling phase transitions via an entropy equation: long-time behaviour of the solutions                                                                                                ; 1 Introduction                     ; 2 The model and the resulting PDE's system                                                 ; 3 Main results
327   $a4 The existence and uniqueness result                                            4.1 Proof of Theorem 5                             ; 5 Uniform estimates on (0. +oo)                                      ; 6 The w-limit                    ; References                 ; Global solution to a one dimensional phase transition model with strong dissipation                                                                                          ; 1 Introduction and derivation of the model                                                 ; 2 Notation and main results
327   $a3 Proof of Theorem 1                           4 Proof of Theorem 2                           ; References                 ; A global in time result for an integro-differential parabolic inverse problem in the space of bounded functions                                                                                                                      ; 1 Introduction                     ; 2 Definitions and main results                                     ; 2.1 The main abstract result                                   ; 2.2 An application
327   $a3 The weighted spaces                            4 An equivalent fixed point system                                         ; 5 Proof of Theorem 6                           ; References                 ; Weak solutions for Stefan problems with convections                                                          ; 1 Introduction                     ; 2 Stefan problem in non-cylindrical domain with convection governed by Navier-Stokes equations
327   $a2.1 Classical formulation
330   $aPhase transition phenomena arise in a variety of relevant real world situations, such as melting and freezing in a solid-liquid system, evaporation, solid-solid phase transitions in shape memory alloys, combustion, crystal growth, damage in elastic materials, glass formation, phase transitions in polymers, and plasticity.  The practical interest of such phenomenology is evident and has deeply influenced the technological development of our society, stimulating intense mathematical research in this area.  This book analyzes and approximates some models and related partial differential equation
410  0$aSeries on advances in mathematics for applied sciences ;$vv. 71.
606   $aPhase transformations (Statistical physics)
606   $aPhase transformations (Statistical physics)$xMathematical models
606   $aEnergy dissipation
608   $aElectronic books.
615  0$aPhase transformations (Statistical physics)
615  0$aPhase transformations (Statistical physics)$xMathematical models.
615  0$aEnergy dissipation.
676   $a530.4/74
701   $aColli$b P$g(Pierluigi),$f1958-$021039
701   $aKenmochi$b Nobuyuki$0974272
701   $aSprekels$b J$027708
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200 00$aMaterials Chemistry of Fullerenes, Graphenes, and Carbon Nanotubes
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 online resource (146 p.)
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330   $aThis Special Issue is intended as a platform for interactive material science articles with an emphasis on the preparation, functionalization chemistry, and characterization of nanocarbon compounds, as well as all aspects of physical properties of functionalized, conjugated, or hybrid nanocarbon materials, and their associated applications. Some recent advances in the field are here collected, providing new ideas for discussion of researchers working in this multidisciplinary scenario.
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610   $athermal conductivity
610   $aTri[60]fullerenyl stereoisomers
610   $atris(diphenylaminofluorene)
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