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Powder Metallurgy Volume 49, 2006 - Issue 3
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Articles

Millimetre wave effects on sintering behaviour of metal powder compacts

S. Takayama
,
G. Link
,
S. Miksch
,
M. Sato
,
J. Ichikawa
&
M. Thumm
Pages 274-280 | Published online: 19 Jul 2013

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Apurbba Kumar Sharma & Radha Raman Mishra. (2018) Role of particle size in microwave processing of metallic material systems. Materials Science and Technology 34:2, pages 123-137.
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T Hashiguchi & H Sueyoshi. (2011) Effect of atmosphere on microwave heating of titanium powder. Powder Metallurgy 54:4, pages 537-542.
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Articles from other publishers (28)

R. V. Batienkov, A. N. Bol’shakova & A. A. Khudnev. (2022) Microwave Sintering of Metal Powder Materials (Review). Metallurgist 65:9-10, pages 1163-1173.
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Ahmadreza Amini, Mohammad Latifi & Jamal Chaouki. (2021) Electrification of materials processing via microwave irradiation: A review of mechanism and applications. Applied Thermal Engineering 193, pages 117003.
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Elif Aranci Öztürk, Mustafa Boyrazli, Mehmet Deniz Turan & Murat Erdemoğlu. (2020) The Effect of Grain Size on Microwave Interaction of Magnetite Concentrate Mixed with Carbonized Biomass Waste. Current Physical Chemistry 10:2, pages 107-115.
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Jun Fukushima, Keiichiro Kashimura & Hirotsugu Takizawa. (2019) Nitridation Reaction of Titanium Powders by 2.45 GHz Multimode Microwave Irradiation using a SiC Susceptor in Atmospheric Conditions. Processes 8:1, pages 20.
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Waldemir. M. Carvalho-Jr, Flavio L. Souza, Sydney Ferreira Santos & Jean-Louis Bobet. (2018) Rapid microwave-assisted synthesis of zirconium aluminide. Materials Chemistry and Physics 211, pages 249-257.
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Jun Fukushima & Hirotsugu Takizawa. (2018) Microwave Synthesis of Ti<sub>4</sub>O<sub>7</sub> or AlN Nanoparticles by Rapid Carbothermal Reduction Process急速炭素熱還元法によるTi<sub>4</sub>O<sub>7</sub>およびAlNナノ粒子のマイクロ波合成. Journal of the Japan Petroleum Institute 61:2, pages 88-97.
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D. El Khaled, N. Novas, J.A. Gazquez & F. Manzano-Agugliaro. (2018) Microwave dielectric heating: Applications on metals processing. Renewable and Sustainable Energy Reviews 82, pages 2880-2892.
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Satoshi Horikoshi, Robert F. Schiffmann, Jun Fukushima & Nick SerponeSatoshi Horikoshi, Robert F. Schiffmann, Jun Fukushima & Nick Serpone. 2018. Microwave Chemical and Materials Processing. Microwave Chemical and Materials Processing 321 381 .
M. Mahmoud, G. Link, J. Jelonnek & M. Thumm. (2017) Investigation on mm-wave sintering of metal powder compacts using in-situ dilatometry and electrical resistivity measurements. EPJ Web of Conferences 149, pages 02007.
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Evan Vargas, Michelle L. Pantoya, Mohammed A. Saed & Brandon L. Weeks. (2016) Advanced susceptors for microwave heating of energetic materials. Materials & Design 90, pages 47-53.
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Faysal Benaskar, Narendra Patil, Volker Rebrov, Jaap Schouten & Volker Hessel. 2015. Microwaves in Catalysis. Microwaves in Catalysis 109 140 .
Ivaldete da Silva Dupim, Sydney Ferreira Santos & Jacques Huot. (2015) Effect of Cold Rolling on the Hydrogen Desorption Behavior of Binary Metal Hydride Powders under Microwave Irradiation. Metals 5:4, pages 2021-2033.
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Sadatsugu Takayama, Guido Link, Motoyasu Sato & John Jelonnek. (2015) Possibility for Iron Production Using High-Power Millimeter Waves. IEEE Transactions on Plasma Science 43:10, pages 3517-3521.
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Morsi M. Mahmoud, Guido Link & Manfred Thumm. (2015) The role of the native oxide shell on the microwave sintering of copper metal powder compacts. Journal of Alloys and Compounds 627, pages 231-237.
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Randall M. German. 2014. Sintering: from Empirical Observations to Scientific Principles. Sintering: from Empirical Observations to Scientific Principles 387 412 .
Randall M. German. (2013) Rapid Heating Concepts in Sintering. Journal of Korean Powder Metallurgy Institute 20:2, pages 85-99.
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Romain Cauchois, Mohamed Saadaoui, Abdelwahhab Yakoub, Karim Inal, Beatrice Dubois-Bonvalot & Jean-Christophe Fidalgo. (2012) Impact of variable frequency microwave and rapid thermal sintering on microstructure of inkjet-printed silver nanoparticles. Journal of Materials Science 47:20, pages 7110-7116.
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G. Link, M. M. Mahmoud & M. Thumm. 2012. Processing and Properties of Advanced Ceramics and Composites IV. Processing and Properties of Advanced Ceramics and Composites IV 145 149 .
Ignatenko Maxim & Motohiko Tanaka. (2011) Numerical Analysis of the Microwave Heating of Compacted Copper Powders in Single-Mode Cavity. Japanese Journal of Applied Physics 50:9R, pages 097302.
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Ignatenko Maxim & Motohiko Tanaka. (2011) Numerical Analysis of the Microwave Heating of Compacted Copper Powders in Single-Mode Cavity. Japanese Journal of Applied Physics 50:9, pages 097302.
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Hidekazu Sueyoshi, Tomokazu Hashiguchi, Nobuhiro Nakatsuru & Shigeki Kakiuchi. (2011) Effect of surface oxide film and atmosphere on microwave heating of compacted copper powder. Materials Chemistry and Physics 125:3, pages 723-728.
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A. Mondal, A. Shukla, A. Upadhyaya & D. Agrawal. (2010) Effect of porosity and particle size on microwave heating of copper. Science of Sintering 42:2, pages 169-182.
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A.K. Shukla, A. Mondal & A. Upadhyaya. (2010) Numerical modeling of microwave heating. Science of Sintering 42:1, pages 99-124.
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Maxim Ignatenko, Motohiko Tanaka & Motoyasu Sato. (2009) Absorption of Microwave Energy by a Spherical Nonmagnetic Metal Particle. Japanese Journal of Applied Physics 48:6R, pages 067001.
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Sadatsugu Takayama, Kazuhisa Kakurai, Masayasu Takeda, Akio Matsubara, Yoshikazu Nishihara, Junichi Nishijo, Saburo Sano, Nobuyuki Nishi & Motoyasu Sato. (2009) Investigation of crystal structure formation under microwave heating. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 600:1, pages 246-249.
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Motoharu Suzuki, Maxim Ignatenko, Masashi Yamashiro, Motohiko Tanaka & Motoyasu Sato. (2008) Numerical Study of Microwave Heating of Micrometer Size Metal Particles. ISIJ International 48:5, pages 681-684.
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Sadatsugu TAKAYAMA, Guido LINK, Akihiro MATSUBARA, Saburo SANO, Motoyasu SATO & Manfred THUMM. (2008) Microwave Frequency Effect for Reduction of Magnetite. Plasma and Fusion Research 3, pages S1036-S1036.
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J. Ma, J. F. Diehl, E. J. Johnson, K. R. Martin, N. M. Miskovsky, C. T. Smith, G. J. Weisel, B. L. Weiss & D. T. Zimmerman. (2007) Systematic study of microwave absorption, heating, and microstructure evolution of porous copper powder metal compacts. Journal of Applied Physics 101:7.
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