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12704cam a2200877Ia 4500 |
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ocn823604565 |
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OCoLC |
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20220711190107.0 |
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m eo d |
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130108s2013 nyua foab 001 0 eng d |
| 040 ## - CATALOGING SOURCE |
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| Original cataloging agency |
CaBNvSL |
| Language of cataloging |
eng |
| Description conventions |
pn |
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J2I |
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J2I |
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N$T |
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UMI |
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COO |
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E7B |
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UKMGB |
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DEBSZ |
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OCLCQ |
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OCLCF |
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OCLCQ |
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AGLDB |
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OCLCQ |
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VTS |
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M8D |
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UKAHL |
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OCLCO |
| 016 7# - NATIONAL BIBLIOGRAPHIC AGENCY CONTROL NUMBER |
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| Record control number |
016319126 |
| Source |
Uk |
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825071235 |
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1087445101 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9781606500644 |
| Qualifying information |
(electronic bk.) |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
1606500643 |
| Qualifying information |
(electronic bk.) |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| Cancelled/invalid ISBN |
9781606500620 |
| Qualifying information |
(print) |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| Cancelled/invalid ISBN |
1606500627 |
| Qualifying information |
(print) |
| 024 7# - OTHER STANDARD IDENTIFIER |
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| Standard number or code |
10.5643/9781606500644 |
| Source of number or code |
doi |
| 029 1# - (OCLC) |
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| OCLC library identifier |
AU@ |
| System control number |
000050492445 |
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| OCLC library identifier |
DEBBG |
| System control number |
BV041121046 |
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| OCLC library identifier |
DEBBG |
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BV043072794 |
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| OCLC library identifier |
DEBSZ |
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39675967X |
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| OCLC library identifier |
DEBSZ |
| System control number |
421287616 |
| 029 1# - (OCLC) |
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| OCLC library identifier |
NZ1 |
| System control number |
16077721 |
| 035 ## - SYSTEM CONTROL NUMBER |
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| System control number |
(OCoLC)823604565 |
| Canceled/invalid control number |
(OCoLC)825071235 |
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(OCoLC)1087445101 |
| 037 ## - SOURCE OF ACQUISITION |
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| Stock number |
CL0500000186 |
| Source of stock number/acquisition |
Safari Books Online |
| 050 #4 - LIBRARY OF CONGRESS CALL NUMBER |
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| Classification number |
QD547 |
| Item number |
.K695 2013 |
| 072 #7 - SUBJECT CATEGORY CODE |
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| Subject category code |
SCI |
| Subject category code subdivision |
013050 |
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bisacsh |
| 082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Classification number |
541.33 |
| Edition number |
23 |
| 049 ## - LOCAL HOLDINGS (OCLC) |
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| Holding library |
MAIN |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Personal name |
Kozeschnik, E. |
| Fuller form of name |
(Ernst) |
| 9 (RLIN) |
916322 |
| 245 10 - TITLE STATEMENT |
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| Title |
Modeling solid-state precipitation / |
| Statement of responsibility, etc |
Ernst Kozeschnik. |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
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| Place of publication, distribution, etc |
[New York, N.Y.] (222 East 46th Street, New York, NY 10017) : |
| Name of publisher, distributor, etc |
Momentum Press, |
| Date of publication, distribution, etc |
2013. |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
1 online resource (1 online resource (xxxiii, 464 pages)) : |
| Other physical details |
illustrations, digital file |
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text |
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txt |
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rdacontent |
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computer |
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rdamedia |
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online resource |
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rdacarrier |
| 500 ## - GENERAL NOTE |
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| General note |
Title from PDF title page (viewed on January 8, 2013). |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
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| Bibliography, etc |
Includes bibliographical references (pages 445-457) and index. |
| 505 0# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
List of symbols -- List of figures -- List of tables -- Preface. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
1. Thermodynamic basis of phase transformations -- 1.1 The Gibbs energy -- 1.2 Molar Gibbs energy and chemical potentials -- 1.3 Solution thermodynamics -- 1.3.1 Mechanical mixture and ideal solution -- 1.3.2 The regular solution -- 1.3.3 General solutions, the CALPHAD approach -- 1.4 Multiphase systems and driving force for precipitation -- 1.5 Curvature and elastic stress -- 1.5.1 The Gibbs-Thomson equation -- 1.5.2 Elastic misfit stress -- 1.6 Equilibrium structural vacancies. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
2. Precipitate nucleation -- 2.1 Paving the way for nucleation theory -- 2.2 Nucleation of liquid droplets from supersaturated vapor -- 2.2.1 Thermodynamics of the critical nucleus -- 2.2.2 Overcoming the nucleation barrier -- 2.2.3 The kinetics of droplet formation -- 2.2.4 The Zeldovich factor -- 2.2.5 The time lag -- 2.2.6 Note on thermodynamic properties of small clusters -- 2.3 Solid-state nucleation -- 2.3.1 The precipitate-matrix interface -- 2.3.2 Free energy of nucleus formation -- 2.3.3 Steady-state nucleation rate in crystalline solids -- 2.3.4 Time-dependent nucleation -- 2.3.5 The volume misfit stress -- 2.3.6 Excess structural vacancies -- 2.4 Heterogeneous nucleation -- 2.4.1 Heterogeneous nucleation sites -- 2.4.2 Potential nucleation sites in a heterogeneous microstructure -- 2.4.3 Nucleation site saturation -- 2.4.4 Effective interfacial energies in heterogeneous nucleation -- 2.4.5 Grain boundary energy -- 2.5 Nucleation in multicomponent environment -- 2.5.1 CNT in multicomponent environment -- 2.5.2 The composition of the critical nucleus -- 2.6 Summary. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
3. Diffusion-controlled precipitate growth and coarsening -- 3.1 Problem formulation -- 3.2 Diffusion-controlled growth with local thermodynamic equilibrium -- 3.2.1 Local equilibrium and composition profiles -- 3.2.2 Binary diffusion-controlled growth, the Zener model -- 3.2.3 The quasi-stationary solution for spherical precipitates -- 3.2.4 Analytical solution for high and low dimensionless supersaturation -- 3.2.5 Influence of capillarity on precipitate growth -- 3.3 Multicomponent diffusion-controlled growth -- 3.3.1 The multicomponent local equilibrium tie-lines -- 3.3.2 Fast and slow local equilibrium transformation regions -- 3.3.3 Local equilibrium controlled precipitation in multicomponent systems -- 3.3.4 Approximate treatment of multinary diffusional transformations -- 3.4 Energy dissipation at a moving phase boundary, the mixed-mode model -- 3.5 Mean-field evolution equations for precipitate growth -- 3.5.1 The thermodynamic extremal principle -- 3.5.2 Mean-field evolution equations for substitutional/interstital phases -- 3.5.3 Evolution equations for general sublattice phases -- 3.5.4 Comparison with local equilibrium based growth models -- 3.6 Precipitate coarsening -- 3.6.1 The lSW-theory of precipitate coarsening -- 3.6.2 Extensions of lSW theory for finite phase fraction effects -- 3.6.2.1 The modified lSW theory of Ardell -- 3.6.2.2 The Brailsford and Wynblatt theory -- 3.6.2.3 The Davies, Nash, and Stevens (LSEM) theory -- 3.6.2.4 The Tsumuraya and Miyata theory -- 3.6.2.5 The Marqusee and Ross theory -- 3.6.2.6 The Tokuyama and Kawasaki theory -- 3.6.2.7 The Voorhees and Glicksman theory -- 3.6.2.8 The Enomoto, Tokuyama, and Kawasaki theory -- 3.6.2.9 The Marder theory -- 3.6.3 Comparison of theories -- 3.6.4 Coarsening in multicomponent alloys -- 3.7 Summary. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
4. Interfacial energy -- 4.1 The nearest-neighbor broken-bond model -- 4.2 Composition dependence of the precipitate-matrix interfacial energy -- 4.3 Generalization of the NNBB approach, the GBB model -- 4.3.1 Effective bond energies and broken bonds -- 4.3.2 Comparison between theory and experiment -- 4.4 Interface energy correction for small precipitates -- 4.4.1 The interface energy size correction function -- 4.4.2 Comparison with size correction in vapor-droplet systems -- 4.5 Energy of diffuse interfaces -- 4.5.1 Free energy of a diffuse interface -- 4.5.2 Regular solution approximation for diffuse interfaces -- 4.5.3 Comparison with other models -- 4.6 Summary. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
5. Numerical modeling of precipitation -- 5.1 Kolmogorov-Johnson-Mehl-Avrami (KJMA) model -- 5.1.1 Derivation of the KJMA equation -- 5.1.2 Analysis of KJMA parameters -- 5.1.3 Multiphase KJMA kinetics -- 5.2 Langer-Schwartz model -- 5.2.1 The original LS model -- 5.2.2 Modified Langer-Schwartz model -- 5.3 Kampmann-Wagner numerical model -- 5.4 General course of a phase decomposition -- 5.4.1 Heat treatments for precipitation -- 5.4.2 Stages in precipitate life -- 5.4.3 Evolution of precipitation parameters -- 5.4.4 Overlap of nucleation, growth, and coarsening -- 5.5 Summary. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
6. Heterogeneous precipitation -- 6.1 Precipitation at grain boundaries -- 6.1.1 Problem formulation -- 6.1.2 Diffusive processes -- 6.1.3 Evolution equations for precipitate growth -- 6.1.4 Evolution equations for precipitate coarsening -- 6.1.5 Growth kinetics of equisized precipitates -- 6.1.6 Growth kinetics of nonequisized precipitates -- 6.1.7 Coarsening kinetics -- 6.2 Anisotropy and precipitate shape -- 6.2.1 Shape parameter, h, and SFFK evolution equations -- 6.2.2 Determination of shape factors -- 6.2.3 Comparing growth kinetics -- 6.3 Particle coalescence -- 6.3.1 Diffusion kinetics of clusters -- 6.3.2 Evolution of precipitation systems by coalescence -- 6.3.3 Simultaneous adsorption/evaporation and coalescence -- 6.3.4 Phenomenological treatment of particle coalescence -- 6.3.5 Comparison with experiment -- 6.4 Simultaneous precipitation and diffusion -- 6.4.1 Numerical treatment in the local-equilibrium limit -- 6.4.2 Comparison of local-equilibrium simulations with experiment -- 6.4.3 Coupled diffusion and precipitation kinetics. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
7. Diffusion -- 7.1 Mechanisms of diffusion -- 7.1.1 Diffusion in crystalline materials -- 7.1.2 The principle of microscopic time reversal -- 7.1.3 Random walk treatment of diffusion -- 7.1.4 The Einstein-Smoluchowski equation -- 7.2 Macroscopic models of diffusion -- 7.2.1 Phenomenological laws of diffusion -- 7.2.2 Special solutions of Fick's second law -- 7.2.2.1 Spreading of a diffusant from a point source -- 7.2.2.2 Diffusion into a semi-infinite sample -- 7.2.3 Numerical solution -- 7.2.4 Diffusion forces and atomic mobility -- 7.2.5 Multicomponent diffusion -- 7.3 Activation energy for diffusion -- 7.3.1 Temperature dependence of the diffusion coefficient -- 7.3.2 Diffusion along dislocations and grain boundaries -- 7.4 Excess structural vacancies -- 7.4.1 Vacancy generation and annihilation -- 7.4.2 Modeling excess vacancy evolution -- 7.4.2.1 Annihilation at dislocation jogs -- 7.4.2.2 Annihilation at Frank loops -- 7.4.2.3 Annihilation at grain boundaries -- 7.4.3 Vacancy evolution in polycrystalline microstructure -- 7.5 Summary. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
8. Design of simulation -- 8.1 General considerations -- 8.2 How to design and interpret a solid-state precipitation simulation. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
9. Software for precipitation kinetics simulation -- 9.1 DICTRA, diffusion-controlled transformation -- 9.1.1 General information -- 9.1.2 Basic concepts -- 9.1.2.1 Sharp interface -- 9.1.2.2 Local equilibrium -- 9.1.2.3 Diffusion -- 9.1.2.4 Microstructure -- 9.1.2.5 Nucleation and surface energy -- 9.1.3 DICTRA precipitation simulation -- 9.1.3.1 Interactive formulation of a problem in DICTRA -- 9.1.3.2 Results of the simulation -- 9.1.4 Further modules -- 9.1.4.1 Para-equilibrium model -- 9.1.4.2 Pearlite module -- 9.2 PrecipiCalc--software for 3D multiphase precipitation evolution -- 9.2.1 General information -- 9.2.2 Software implementation -- 9.2.3 Example of precipicalc simulations -- 9.2.4 Summary -- 9.3 MatCalc, the materials calculator -- 9.3.1 General information -- 9.3.2 The kinetic model -- 9.3.3 MatCalc precipitation simulation in the GUI version -- 9.3.4 MatCalc precipitation simulation using scripting -- 9.3.5 Using MatCalc with external software -- 9.3.6 Software-relevant literature and web sources -- 9.3.6.1 Modeling -- 9.3.6.2 Application -- 9.3.6.3 Examples -- 9.4 PanPrecipitation, an integrated computational tool for precipitation simulation of multicomponent alloys -- 9.4.1 Introduction -- 9.4.2 Kinetic models -- 9.4.3 Software design and data structure -- 9.4.4 Examples -- 9.4.4.1 Example 1: precipitation behavior of a model Ni- 14 at% Al alloy -- 9.4.4.2 Example 2: coarsening of Rene88DT -- 9.4.4.3 Example 3: precipitation hardening behavior of Al-Mg-Si alloys -- 9.4.5 Discussion -- 9.5 TC-Prisma -- 9.5.1 General information -- 9.5.2 Kinetic model -- 9.5.3 Performing TC-Prisma simulations "from scratch" -- 9.5.3.1 Define system -- 9.5.3.2 Define simulation conditions -- 9.5.3.3 Start -- 9.5.3.4 Plot results -- 9.5.4 Performing simulations using scripts -- 9.6 Comparison of software codes. |
| 505 8# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
Appendix -- References -- Index. |
| 520 3# - SUMMARY, ETC. |
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| Summary, etc |
Over recent decades, modeling and simulation of solid-state precipitation has attracted increased attention in academia and industry due to their important contributions in designing properties of advanced structural materials and in increasing productivity and decreasing costs for expensive alloying. In particular, precipitation of second phases is an important means for controlling the mechanical-technological properties of structural materials. However, profound physical modeling of precipitation is not a trivial task. This book introduces you to the classical methods of precipitation modeling and to recently-developed advanced, computationally-efficient techniques. |
| 590 ## - LOCAL NOTE (RLIN) |
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| Local note |
eBooks on EBSCOhost |
| Provenance (VM) [OBSOLETE] |
EBSCO eBook Subscription Academic Collection - Worldwide |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name as entry element |
Precipitation (Chemistry) |
| General subdivision |
Mathematical models. |
| 9 (RLIN) |
916323 |
| 650 #6 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name as entry element |
Précipitation (Chimie) |
| General subdivision |
Modèles mathématiques. |
| 9 (RLIN) |
916324 |
| 650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name as entry element |
SCIENCE |
| General subdivision |
Chemistry |
| -- |
Physical & Theoretical. |
| Source of heading or term |
bisacsh |
| 650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Precipitation (Chemistry) |
| General subdivision |
Mathematical models. |
| Source of heading or term |
fast |
| -- |
(OCoLC)fst01074921 |
| 9 (RLIN) |
916323 |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
precipitation modeling |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
precipitation of second phases |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
multi-component systems |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
complex thermo-mechanical treatments |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
phase transformation modeling |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
nucleation theory |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
precipitate growth |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
calculation of interfacial energies |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
numerical approaches using evolution equations |
| 653 ## - INDEX TERM--UNCONTROLLED |
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| Uncontrolled term |
precipitation kinetics simulations |
| 655 #0 - INDEX TERM--GENRE/FORM |
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| Genre/form data or focus term |
Electronic books. |
| 655 #4 - INDEX TERM--GENRE/FORM |
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| Genre/form data or focus term |
Electronic books. |
| 776 08 - ADDITIONAL PHYSICAL FORM ENTRY |
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| Display text |
Print version: |
| International Standard Book Number |
1606500627 |
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9781606500620 |
| 856 40 - ELECTRONIC LOCATION AND ACCESS |
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| Uniform Resource Identifier |
<a href="https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=520291">https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=520291</a> |
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Askews and Holts Library Services |
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ASKH |
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AH34378807 |
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ebrary |
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ebr10642432 |
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EBSCOhost |
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EBSC |
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520291 |
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92 |
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INOPJ |
