Grain Growth In Polycrystalline Materials I

Grain Growth in Polycrystalline Materials I PDF Book Detail:
Author: Giuseppe Abbruzzese
Publisher: Trans Tech Publications Ltd
ISBN: 3035704651
Size: 21.54 MB
Format: PDF, Mobi
Category : Technology & Engineering
Languages : en
Pages : 930
View: 2420

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Book Description: The volumes present investigations on grain growth phenomena and their observation in various materials: metals and alloys, ceramics, sintered materials, thin films, etc.; normal and abnormal grain growth including twinning, texture, particle and other drag effects as well as analysis of topological aspects and grain size and grain orientation correlations; grain boundary structure, mobility and interaction with particles and impurity atoms. Experimental methods applicable to measurements of grain size, orientation of individual grains, etc.

Grain Growth In Polycrystalline Materials Ii

Grain Growth in Polycrystalline Materials II PDF Book Detail:
Author: H. Yoshinaga
Publisher: Trans Tech Publications Ltd
ISBN: 3035705046
Size: 57.14 MB
Format: PDF, Docs
Category : Technology & Engineering
Languages : en
Pages : 820
View: 5310

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Book Description: Grain Growth is one of the most fundamental microstructural changes, and occurs in all types of polycrystalline material. It is of major scientific interest, and of great importance in a wide range of industrial applications.

Grain Growth In Polycrystalline Materials Iii

Grain Growth in Polycrystalline Materials III PDF Book Detail:
Author: Hasso Weiland
Publisher: Tms
ISBN: 9780873394093
Size: 58.78 MB
Format: PDF, Kindle
Category : Technology & Engineering
Languages : en
Pages : 727
View: 1965

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Book Description: This book documents research presented during the Third International Conference on Grain Growth in 1998. The consequences of grain growth are of considerable technological and industrial importance in determining the manufacturability and service life of metals, ceramics, thin films, and other fine-grained materials. Coverage includes grain growth theory and simulation, geometry, pinning of grain growth, and grain boundary properties.

Grain Growth And Control Of Microstructure And Texture In Polycrystalline Materials

Grain Growth and Control of Microstructure and Texture in Polycrystalline Materials PDF Book Detail:
Author: Vladimir Novikov
Publisher: CRC Press
ISBN:
Size: 48.88 MB
Format: PDF, ePub, Docs
Category : Science
Languages : en
Pages : 174
View: 1345

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Book Description: You need not be an expert in material science or engineering to benefit from Grain Growth and Control of Microstructure and Texture in Polycrystalline Materials. This unique book presents up-to-date information on the grain growth process in an easy-to-understand format. It goes beyond the recent advances in this area achieved with stimulation models of microstructure and texture by focusing on quantitative, rather than qualitative, issues. Nowhere else will you find such an accessible single-volume resource that covers:

Theory And Modeling Of Microstructural Evolution In Polycrystalline Materials

Theory and Modeling of Microstructural Evolution in Polycrystalline Materials PDF Book Detail:
Author: Ning Ma
Publisher:
ISBN:
Size: 17.56 MB
Format: PDF
Category : Crystal growth
Languages : en
Pages :
View: 3350

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Book Description: Abstract: To accurately predict microstructure evolution and, hence, to synthesis metal and ceramic alloys with desirable properties involves many fundamental as well as practical issues. In the present study, novel theoretical and phase field approaches have been developed to address some of these issues including solute drag and segregation transition at grain boundaries and dislocations, grain growth in systems of anisotropic boundary properties, and precipitate microstructure development in polycrystalline materials. The segregation model has allowed for the prediction of a first-order segregation transition, which could be related to the sharp transition of solute concentration of grain boundary as a function of temperature. The incorporating of interfacial energy and mobility as functions of misorientation and inclination in the phase field model has allowed for the study of concurrent grain growth and texture evolution. The simulation results were analyzed using the concept of local grain boundary energy density, which simplified significantly the development of governing equations for texture controlled grain growth in Ti-6Al-4V. Quantitative phase field modeling techniques have been developed by incorporating thermodynamic and diffusivity databases. The models have been validated against DICTRA simulations in simple 1D problems and applied to simulate realistic microstructural evolutions in Ti-6Al-4V, including grain boundary a and globular a growth and sideplate development under both isothermal aging and continuous cooling conditions. The simulation predictions agree well with experimental observations.