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Editorial

Editorial Technically important materials are frequently the result of cal representation especially designed for the solution of semi-empirical experimental developments. However, the specific problems, scientific as well as application orien- tr1al and error approach 1s strongly limited by the technical ted. Depending on the special demand the appropriate d1a- demands to operate materials under more and more extreme gram can be calculated (eg 1sothermal sections, 1sopleths, environmental conditions accompanied by the increased complexity of the used multicomponent materials. The ra- t1onal development of materials processes, design and ap- plication and waste recycling requires a strong scientific based knowledge of phase equilibria, thermodynamic prop- erties and related microstructures. This is valid for modern alloys and high-tech ceramics as well as for new compo- s1tes. In view of the prohibitively large amount of experi- ments necessary to determine multi-component phase dia- grams, new ways have to be found to increase efficiency of work. To pull down Petzows Konstitutionsberg (Moun- t1an of Materials Science), new strategies and concepts have to be followed. With regard to this aim, the modern trend in Materials Thermodynamics and Constitution is characterized by the combination of Computer CAlculations of PHAse Dia- grams (CALPHAD method) with directed experimental stu- http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png International Journal of Materials Research de Gruyter

Editorial

International Journal of Materials Research , Volume 87 (7): 2 – Jul 1, 1996
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Publisher
de Gruyter
Copyright
© 2021 by Walter de Gruyter Berlin/Boston
ISSN
1862-5282
eISSN
2195-8556
DOI
10.1515/ijmr-1996-870702
Publisher site
See Article on Publisher Site

Abstract

Technically important materials are frequently the result of cal representation especially designed for the solution of semi-empirical experimental developments. However, the specific problems, scientific as well as application orien- tr1al and error approach 1s strongly limited by the technical ted. Depending on the special demand the appropriate d1a- demands to operate materials under more and more extreme gram can be calculated (eg 1sothermal sections, 1sopleths, environmental conditions accompanied by the increased complexity of the used multicomponent materials. The ra- t1onal development of materials processes, design and ap- plication and waste recycling requires a strong scientific based knowledge of phase equilibria, thermodynamic prop- erties and related microstructures. This is valid for modern alloys and high-tech ceramics as well as for new compo- s1tes. In view of the prohibitively large amount of experi- ments necessary to determine multi-component phase dia- grams, new ways have to be found to increase efficiency of work. To pull down Petzows Konstitutionsberg (Moun- t1an of Materials Science), new strategies and concepts have to be followed. With regard to this aim, the modern trend in Materials Thermodynamics and Constitution is characterized by the combination of Computer CAlculations of PHAse Dia- grams (CALPHAD method) with directed experimental stu-

Journal

International Journal of Materials Researchde Gruyter

Published: Jul 1, 1996

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