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Livres sur le sujet « Sintering of silver powder »

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Auteur : Grafiati
Publié le 14 mars 2023

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1

Ceramic processing and sintering. 2e éd. New York : M. Dekker, 2003.

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2

Rahaman, M. N. Ceramic processing and sintering. New York : M. Dekker, 1995.

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3

Ivensen, V. A. Fenomenologii͡a︡ spekanii͡a︡ i nekotorye voprosy teorii. Moskva : "Metallurgii͡a︡", 1985.

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4

Bondarenko, B. I. Vosstanovitelʹno-obezuglerozhivai͡u︡shchiĭ otzhig metallicheskikh poroshkov. Kiev : Nauk. dumka, 1991.

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5

V, Skorokhod V., Khermelʹ V et Instytut problem materialoznavstva (Akademii͡a︡ nauk Ukraïnsʹkoï RSR), dir. Prot͡s︡essy massoperenosa pri spekanii. Kiev : Nauk. dumka, 1987.

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6

Suxing, Wu. Sintering additives for Zirconia ceramics. Carnforth, Lancs : Parthenon Press, 1986.

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7

German, Randall M. Powder metallurgy and particulate materals processing : The processes, materials, products, properties and applications. Princeton, NJ : Metal Powder Industries Federation, 2005.

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8

Okoński, Stanisław. Podstawy plastycznego kształtowania materiałów spiekanych z proszków metali. Kraków : Politechnika Krakowska im. Tadeusza Kościuszki, 1993.

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9

German, Randall M. Powder metallurgy and particulate materials processing : The processes, materials, products, properties and applications. Princeton, New Jersey : Metal Powder Industries Federation, 2005.

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10

Kubicki, Boguslaw. Sintered machine elements. New York : Ellis Horwood, 1995.

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11

Branner, Gregor. Modellierung transienter Effekte in der Struktursimulation von Schichtbauverfahren. München : Herbert Utz Verlag, 2011.

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12

International Symposium on Physical Chemistry of Powder Metals Production and Processing (1989 St. Marys, Elk County, Pa.). Physical chemistry of powder metals production and processing : Proceedings of an International Symposium on Physical Chemistry of Powder Metals Production and Processing, sponsored by the TMS Physical Chemistry Committee, and held October 16-18, 1989, in St. Marys, Pennsylvania. Warrendale, Pa : TMS, 1989.

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13

Sigl, Matthäus. Ein Beitrag zur Entwicklung des Elektronenstrahlsinterns. München : H. Utz, 2008.

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14

Lutzmann, Stefan. Beitrag zur Prozessbeherrschung des Elektronenstrahlschmelzens. München : Herbert Utz Verlag, 2011.

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15

Szczepanik, Stefan. Przero bka plastyczna materia¿o w spiekanych z proszko w i kompozyto w. Krak ow : Wydaw. AGH, 2003.

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16

Dudina, Dina V. Sintering of powder materials. NSTU Publisher, 2022. http://dx.doi.org/10.17212/978-5-7782-4515-0.

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This study guide corresponds to “Sintering of powder materials” course of the Master degree program at Novosibirsk State Technical University 22.04.01 – Materials Science and Technology. The guide consists of six parts and contains a brief overview of historical aspects of sintering, powder fabrication and characterization methods, powder shaping and compaction processes, and the basics of solid state and liquid phase sintering. The guide also contains a description of advanced sintering methods and sintering processes found in additive manufacturing. Classical and novel materials obtainable by sintering are described. Current trends in the development of sintering science are discussed. Each part of the guide is followed by control questions. Problems with solutions are offered to help the student solve problems encountered in real research and industrial sintering practice. Problems for self-study are also provided, many of which were designed by the author based on her own research experience. Topics for self-study are provided and can be used for students’ presentations at seminars.
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17

Yang, Chao, et Suryanarayana Challapalli, dir. Powder Sintering and Potential Applications. Frontiers Media SA, 2021. http://dx.doi.org/10.3389/978-2-88971-655-5.

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18

Powder metallurgy and particulate materals processing. Metal Powder Industries Federation, 2005.

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19

(Designer), Leander F. Pease, et Reynald J. Sansoucy (Editor), dir. Sintering (New Advances in Powder Metallurgy Vol. 4). Metal Powder Industries Federation, 1991.

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20

Her, Sun Moo. An analysis of the kinetics of microstructural evolution during the late stages of powder processing. 1986.

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21

Spark-Plasma Sintering and Related Field- Assisted Powder Consolidation Technologies. MDPI, 2017. http://dx.doi.org/10.3390/books978-3-03842-383-6.

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22

Compaction Sintering and Secondary Operations (Advances in Powder Particulate Materials Series). Metal Powder Industry, 1993.

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23

Wu, S., et Suxing Wu. Sintering Additives for Zirconia Ceramics (Research Reports in Materials Science). Parthenon Publishing Group, 1986.

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24

Welles, Audrey E. Silver Nanoparticles : Properties, Characterization and Applications. Nova Science Publishers, Incorporated, 2011.

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25

Chang, Shi Shya. Role of gas atmosphere in the evolution of microstructure in the sintering of copper powder. 1990.

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26

International Conference on Gears 2017. VDI Verlag, 2017. http://dx.doi.org/10.51202/9783181022948.

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Talking about the design of modern high-performance power train applications, one of the essential components to focus on are the gears. Gears convert torque and speed in a very wide power range, at low cost and with minimal losses and noise emission. However, the demands regarding cost, power density, NVH-behavior and efficiency are steadily increasing. Demands, which can only be met using modern gearing technologies that allow combining individual materials, heat treatment and manufacturing processes. Particularly in the industrial sector, the requirements for the reliability and service life of the gear units have increased. Therefore, more and more accurate calculation methods are required for the load bearing capacity, life expectancy and failure probability as well as better test methods. This aspect is also becoming more important with regard to Industry 4.0 and Predictive Maintenance. In addition, the potentials of innovative production methods like powder metal sintering, plas...
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27

Narayan, Roger J., dir. Additive Manufacturing in Biomedical Applications. ASM International, 2022. http://dx.doi.org/10.31399/asm.hb.v23a.9781627083928.

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Volume 23A provides a comprehensive review of established and emerging 3D printing and bioprinting approaches for biomedical applications, and expansive coverage of various feedstock materials for 3D printing. The Volume includes articles on 3D printing and bioprinting of surgical models, surgical implants, and other medical devices. The introductory section considers developments and trends in additively manufactured medical devices and material aspects of additively manufactured medical devices. The polymer section considers vat polymerization and powder-bed fusion of polymers. The ceramics section contains articles on binder jet additive manufacturing and selective laser sintering of ceramics for medical applications. The metals section includes articles on additive manufacturing of stainless steel, titanium alloy, and cobalt-chromium alloy biomedical devices. The bioprinting section considers laser-induced forward transfer, piezoelectric jetting, microvalve jetting, plotting, pneumatic extrusion, and electrospinning of biomaterials. Finally, the applications section includes articles on additive manufacturing of personalized surgical instruments, orthotics, dentures, crowns and bridges, implantable energy harvesting devices, and pharmaceuticals. For information on the print version of Volume 23A, ISBN: 978-1-62708-390-4, follow this link.
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28

Zinn, S., et S. L. Semiatin. Elements of Induction Heating. ASM International, 1988. http://dx.doi.org/10.31399/asm.tb.eihdca.9781627083416.

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Elements of Induction Heating: Design, Control, and Applications discusses the principles of electromagnetic induction and the setup and use of induction heating processes and equipment. The first few chapters cover the theory of induction heating and the factors that must be considered when selecting and configuring components for a given application. As the text explains, the frequency required for efficient heating is determined by the geometry of the coil, the properties, size, and shape of the workpiece, and the need to maintain adequate skin effect. It also depends on proper tuning and load matching, which is explained as well. Subsequent chapters discuss the use of external cooling, temperature sensing, and power-timing devices, the fundamentals of process control, the role of flux concentrators, shields, and susceptors, and the integration of material handling equipment. The book also covers coil design and fabrication and explains how induction heating systems can be tailored for specific applications such as billet and bar heating, surface hardening, pipe welding, tin reflow, powder metal sintering, and brazing, and for curing adhesives and coatings. For information on the print version, ISBN 978-0-87170-308-8, follow this link.
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