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Powder Metallurgy Volume 16, 1973 - Issue 31
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Symposium on ‘The Role of Surface Properties in Powder Metallurgy’ (20 and 21 November 1972)

THE ROLE OF SURFACE ENERGY AND POWDER GEOMETRY IN POWDER COMPACTION

K. E. Easterling Chalmers Tekniska HögskolaGöteborg, Sweden.
&
A. R. Thölén Chalmers Tekniska HögskolaGöteborg, Sweden.
Pages 112-118 | Published online: 06 Nov 2014

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In-Hyung Moon & Kyung-Hyup Kim. (1984) Relationship Between Compacting Pressure, Green Density, and Green Strength of Copper Powder Compacts. Powder Metallurgy 27:2, pages 80-84.
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M. Strömgren, H. Åström & K. E. Easterling. (1973) THE EFFECT OF INTERPARTICLE CONTACT AREA ON THE STRENGTH OF COLD-PRESSED ALUMINIUM POWDER COMPACTS. Powder Metallurgy 16:32, pages 155-165.
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Articles from other publishers (15)

Li Liu, Runze Shi, Shuye Zhang, Wei Liu, Shangyu Huang & Zhiwen Chen. (2023) Effects of Ag shell on electrical, thermal and mechanical properties of Cu@Ag composite solder preforms by electromagnetic compaction for power electronics. Materials Characterization 197, pages 112702.
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Shahin Khoddam, Liang Tian, Thaneshan Sapanathan, Peter D. Hodgson & Abbas Zarei-Hanzaki. (2018) Latest Developments in Modeling and Characterization of Joining Metal Based Hybrid Materials. Advanced Engineering Materials 20:9, pages 1800048.
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Steve Lampman. 2015. Powder Metallurgy. Powder Metallurgy 171 178 .
A. K. Radchenko. (2004) Mechanical properties of unsintered pressing. I. Phenomenological relations for unsintered pressing strength. Powder Metallurgy and Metal Ceramics 43:9-10, pages 447-460.
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A. K. Radchenko. (2004) Mechanical properties of unsintered pressing. i. phenomenological relations for unsintered pressing strength. Powder Metallurgy and Metal Ceramics 43:9, pages 447-460.
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Young-Soo Han, Jong-Man Park, Ki-Hwan Kim, Yoon-Sang Lee & Chang-Kyu Kim. (2000) An investigation on the green properties of U-10wt.%Mo/Al and U3Si2/Al powder compacts. Nuclear Engineering and Design 202:1, pages 1-9.
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R. Suryanarayanan Iyer & S.M.L. Sastry. (1999) Consolidation of nanoparticles—development of a micromechanistic model. Acta Materialia 47:10, pages 3079-3098.
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L.N. Smith, P.S. Midha & A.D. Graham. (1998) Simulation of metal powder compaction, for the development of a knowledge based powder metallurgy process advisor. Journal of Materials Processing Technology 79:1-3, pages 94-100.
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D. C. C. Lam & K. Kusakari. (2004) Microstructure and mechanical properties relations for green bodies compacted from spray dried granules. Journal of Materials Science 30:21, pages 5495-5501.
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J. Eckert, J.C. Holzer, C.E. KrillIIIIII & W.L. Johnson. (2011) Structural and thermodynamic properties of nanocrystalline fcc metals prepared by mechanical attrition. Journal of Materials Research 7:7, pages 1751-1761.
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G.W. Nieman, J.R. Weertman & R.W. Siegel. (2011) Mechanical behavior of nanocrystalline Cu and Pd. Journal of Materials Research 6:5, pages 1012-1027.
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Beong-Bok Hwang & Shiro Kobayashi. (1990) Deformation characterization of powdered metals in compaction. International Journal of Machine Tools and Manufacture 30:2, pages 309-323.
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A. K. Radchenko & O. A. Katrus. (1987) Compactibility and strength of rolled strip from powders (review). Soviet Powder Metallurgy and Metal Ceramics 26:7, pages 523-529.
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N.G. Stanley-Wood. 1983. Enlargement and Compaction of Particulate Solids. Enlargement and Compaction of Particulate Solids 43 119 .
F. Sandrolini & G. Moriconi. (1979) Compaction pressure effects in the firing of self-vitrifying ceramic materials. Journal of Materials Science 14:12, pages 2811-2817.
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