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Given their growing importance in the aerospace, automotive, sports and medical sectors, modelling the microstructure and properties of titanium and its alloys is a vital part of research into the development of new applications. This is the first time a book has been dedicated to modelling techniques for titanium.Part one discusses experimental techniques such as microscopy, synchrotron radiation X-ray diffraction and differential scanning calorimetry. Part two reviews physical modelling methods including thermodynamic modelling, the Johnson-Mehl-Avrami method, finite element modellin
Titanium alloys --- Properties. --- Microstructure --- Mathematical models. --- Industrial applications. --- Alloys --- Titane --- Properties --- Industrial applications --- Alliages --- Mathematical models --- Modèles mathématiques --- Analyse
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Titanium --- Congresses --- 669.295 --- -Titanium group --- Conferences - Meetings --- Congresses. --- -Titanium --- 669.295 Titanium --- -669.295 Titanium --- Technologie --- Technology --- Propriété --- Technology. --- Propriété --- Titane
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Alliages réfractaires. --- Heat resistant alloys. --- Heat resistant alloys. --- Nickel alloys. --- Nickel alloys. --- Nickel --- Superplasticity. --- Superplasticity. --- Superplasticité. --- Titane --- Titanium alloys. --- Titanium alloys. --- nickel alloy. --- Alliages. --- Alliages.
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