Libri: "Microstructure Complexe"

1

R, Stevens, e Taylor Derek 1939-, a cura di. Complex microstructures. Stoke-on-Trent: Institute of Ceramics, 1989.

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2

R, Stevens, Taylor D e British Ceramic Society, a cura di. Complex microstructures. Shelton, U.K: Institute of Ceramics, 1989.

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3

Botterill, Sarah Lindsay. The electroforming of complex structures and microstructures. Birmingham: University of Birmingham, 1997.

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4

A, Bednarcyk Brett, e United States. National Aeronautics and Space Administration., a cura di. An efficient implementation of the GMC micromechanics model for multi-phased materials with complex microstructures. [Washington, DC: National Aeronautics and Space Administration, 1997.

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5

A, Bednarcyk Brett, e United States. National Aeronautics and Space Administration., a cura di. An efficient implementation of the GMC micromechanics model for multi-phased materials with complex microstructures. [Washington, DC: National Aeronautics and Space Administration, 1997.

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6

Gordeeva, N. D. Microstructural analysis of the execution complex motor actions: Methods and results. New Delhi: Oxonian Press, 1989.

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7

G, Capriz, e Mariano Paolo Maria 1966-, a cura di. Material substructures in complex bodies: From atomic level to continuum. Amsterdam: Elsevier, 2007.

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8

Gordeeva, N. D. Microstructural analysis of the execution of complex motor actions: Methods and results. New Delhi: Published for the National Library of Medicine by Amerind Pub. Co. ; Springfield, Va. : Available from the U.S. Dept. of Commerce, National Technical Information Service, 1989.

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9

Evans, Robert. Art, science and informatics: Visualisation of large, complex data sets in high-speed measurement of the microstructure of wood. Vancouver, B.C: University of British Columbia, 2002.

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10

Evans, Robert. Art, science and informatics: Visualisation of large, complex data sets in high-speed measurement of the microstructure of wood. Vancouver, B.C: University of British Columbia, 2002.

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11

Evans, Robert. Art, science and informatics: Visualisation of large, complex data sets in high-speed measuremnt of the microstructure of wood. Vancouver, B.C: University of British Columbia, 2002.

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12

Mizutani, U. Hume-Rothery rules for structurally complex alloy phases. Boca Raton: CRC Press, 2011.

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13

B, Massalski T., Turchi Patrice E. A, TMS Committee on Alloy Phases., Minerals, Metals and Materials Society. Meeting e Minerals, Metals and Materials Society. Structural Materials Division., a cura di. The science of complex alloy phases: Proceedings of a symposium sponsored by the Alloy Phase Committee of the joint Electronic, Magnetic & Photonic Materials Division (EMPMD) and Structural Materials Division (SMD) of TMS (the Minerals, Metals & Materials Society) held during the TMS Annual Meeting and Exhibition in San Francisco, California, USA, February 13-17, 2005, to honor the Wiliam Hume-Rothery Award recipient Professor Uichiro Mizutani. Warrendale, Pa: TMS, 2005.

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14

Julian McClements, D., a cura di. Understanding and Controlling the Microstructure of Complex Foods. CRC Press, 2007. http://dx.doi.org/10.1201/9781439824115.

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15

McClements, D. Julian. Understanding and controlling the microstructure of complex foods. Woodhead Publishing Limited, 2007. http://dx.doi.org/10.1533/9781845693671.

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16

McClements, D. Julian. Understanding and Controlling the Microstructure of Complex Foods. Elsevier Science & Technology, 2007.

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17

McClements, D. Julian. Understanding and Controlling the Microstructure of Complex Foods. Elsevier Science & Technology, 2007.

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18

Beris, Antony N., e Brian J. Edwards. Thermodynamics of Flowing Systems: with Internal Microstructure. Oxford University Press, 1994. http://dx.doi.org/10.1093/oso/9780195076943.001.0001.

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Abstract (sommario):

This much-needed monograph presents a systematic, step-by-step approach to the continuum modeling of flow phenomena exhibited within materials endowed with a complex internal microstructure, such as polymers and liquid crystals. By combining the principles of Hamiltonian mechanics with those of irreversible thermodynamics, Antony N. Beris and Brian J. Edwards, renowned authorities on the subject, expertly describe the complex interplay between conservative and dissipative processes. Throughout the book, the authors emphasize the evaluation of the free energy--largely based on ideas from statistical mechanics--and how to fit the values of the phenomenological parameters against those of microscopic models. With Thermodynamics of Flowing Systems in hand, mathematicians, engineers, and physicists involved with the theoretical study of flow behavior in structurally complex media now have a superb, self-contained theoretical framework on which to base their modeling efforts.

19

Mizutani, Uichiro. Hume-Rothery Rules for Structurally Complex Alloy Phases. Taylor & Francis Group, 2019.

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20

Mizutani, Uichiro. Hume-Rothery Rules for Structurally Complex Alloy Phases. Taylor & Francis Group, 2016.

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21

Mizutani, Uichiro. Hume-Rothery Rules for Structurally Complex Alloy Phases. Taylor & Francis Group, 2010.

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22

Mizutani, Uichiro. Hume-Rothery Rules for Structurally Complex Alloy Phases. Taylor & Francis Group, 2016.

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23

Pujala, Ravi Kumar. Dispersion Stability, Microstructure and Phase Transition of Anisotropic Nanodiscs. Springer, 2016.

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24

Pujala, Ravi Kumar. Dispersion Stability, Microstructure and Phase Transition of Anisotropic Nanodiscs. Springer London, Limited, 2014.

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25

Pujala, Ravi Kumar. Dispersion Stability, Microstructure and Phase Transition of Anisotropic Nanodiscs. Springer, 2014.

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26

Baghani, Mostafa, Yves Remond e Majid Baniassadi. Applied Micromechanics of Complex Microstructures: Computational Modeling and Numerical Characterization. Elsevier, 2023.

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27

Baghani, Mostafa, Yves Remond e Majid Baniassadi. Applied Micromechanics of Complex Microstructures: Computational Modeling and Numerical Characterization. Elsevier, 2023.

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28

Material Substructures in Complex Bodies: From Atomic Level to Continuum. Elsevier Science, 2007.

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29

(Editor), Gianfranco Capriz, e Paolo Maria Mariano (Editor), a cura di. Material Substructures in Complex Bodies: From Atomic Level to Continuum. Elsevier Science, 2007.

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30

National Aeronautics and Space Administration (NASA) Staff. Efficient Implementation of the GMC Micromechanics Model for Multi-Phased Materials with Complex Microstructures. Independently Published, 2018.

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31

McClements, David Julian. Understanding and Controlling the Microstructure of Complex Foods (Woodhead Publishing in Food Science, Technology and Nutrition). CRC, 2007.

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32

Kovzun, I. G., V. A. Prokopenko, A. V. Panko, O. A. Tsyganovich, V. O. Oliinyk, O. M. Nikipelova e Z. R. Ulberg. Nanochemical, nanostructural and biocolloidal aspects of transformations in dispersions of iron-aluminosilicate minerals. PH "Akademperiodyka", 2020. http://dx.doi.org/10.15407/akademperiodyka.416.188.

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Abstract (sommario):

It was considered the modern ideas of colloidal and biocolloidal nanoscience concerning complex transformational processes in widespread dispersions of iron-aluminosilicates. It was shown for the fi rst time that they infl uence on catastrophic phenomena in marine turbiditic-pelitic sediments and soils consisting of iron-aluminosilicates. Th e fundamental study results of nano- and microstructure transformations of disperse ironaluminosilicate compositions are presented. And it was established the possibilities of their application in: constructing of protective structures; balneology and medicine; metallurgy; development of the problem of saving the ecological balance in the sea hydrosphere; developing the new branch of science — biocolloidal marine geoecology.

33

Bernal, William, e Alberto Quaglia. Normal physiology of the hepatic system. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0173.

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Abstract (sommario):

Hepatic blood inflow is from two sources—high-pressure, well-oxygenated blood from the hepatic artery and low-pressure, partly deoxygenated blood from the portal vein. Hepatic inflow is maintained by variation in flows in these two systems. Although less than a third of total blood flow is delivered via the hepatic artery, it is responsible for the majority of hepatic oxygen supply. The liver can be subdivided into eight functionally independent segments, each with its own vascular inflow, outflow, and biliary drainage. The tri-dimensional hepatic microstructure is complex with geographic heterogeneity of hepatocellular function, and resistance to toxic, ischaemic, and metabolic damage. The liver is central to a wide variety of synthetic, metabolic, and detoxification functions. The overall balance of activity may be altered rapidly in response to systemic inflammatory stimuli.

34

Pirota, Kleber Roberto, Angela Knobel, Manuel Hernandez-Velez, Kornelius Nielsch e Manuel Vázquez. Magnetic nanowires: Fabrication and characterization. A cura di A. V. Narlikar e Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.22.

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Abstract (sommario):

This article describes the fabrication and characterization of magnetic nanowires, focusing on the magnetic properties of patterned arrays of metallic magnetic nanowires electrodeposited into the pores of anodized-alumina membranes. It also discusses the complex magnetization processes, both in isolated nanowires and in collectively patterned arrays. After providing an overview of the state-of-the-art on fabrication techniques of nanowires, the article considers the microstructure of magnetic nanowires and the magnetic properties of single nanowires. It then examines the collective behavior of arrays where the interactions among the magnetic entities play an important role, along with the transport properties of magnetic nanowires, the temperature-dependent effects (such as magnetoelastic-induced anisotropy), and the dynamic properties of magnetization such as ferromagnetic resonance characteristics and spin-wave excitations in ferromagnetic nanowires. Finally, it presents an overview of future research directions.

35

Bauser, M., G. Sauer e K. Siegert, a cura di. Extrusion. Tradotto da A. F. Castle. 2^a ed. ASM International, 2006. http://dx.doi.org/10.31399/asm.tb.ex2.9781627083423.

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Abstract (sommario):

Extrusion, Second Edition provides a complete and thorough overview of the processes, equipment, and tooling used to extrude metals into desired shapes and forms. It covers all types of processes, including direct, indirect, and hydrostatic extrusion, cable sheathing, continuous extrusion, and the extrusion of powder metals. It describes each process in detail, explaining how the associated forces, stresses, displacements, and heat cause metals to deform and flow and how it affects the microstructure and properties of the resulting products. It discusses the design, setup, and control of extrusion equipment, the use of lubricants and shells, the effect of tooling materials and geometries, and the practical implications of material flow, friction, discard length, and exit temperature. It describes the deformation and extrusion behaviors of many materials, the product forms into which they can be made, and related processing requirements. The book also provides detailed application examples, an introduction to quality management, a review of the basics of metallurgy, and experimentally measured extrusion data. For information on the print version, ISBN 978-0-87170-837-3, follow this link.

Libri sul tema "Microstructure Complexe"

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