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Philosophical Magazine A Volume 57, 1988 - Issue 6
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Original Articles

Melting temperature of In particles embedded in an Al matrix

H. Saka Department of Metallurgy, Faculty of Engineering, Nagoya University, Chikusa-ku, Nagoya, 464, Japan
,
Y. Nishikawa Department of Metallurgy, Faculty of Engineering, Nagoya University, Chikusa-ku, Nagoya, 464, Japan
&
T. Imura Department of Metallurgy, Faculty of Engineering, Nagoya University, Chikusa-ku, Nagoya, 464, Japan
Pages 895-906 | Received 02 Jun 1987, Accepted 29 Sep 1987, Published online: 20 Aug 2006

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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
L.H Liang, J.C Li & Q Jiang. (2002) Superheating thermodynamics of nanocrystals based on the interface effect. Physica B: Condensed Matter 322:1-2, pages 188-192.
Crossref
K. K. Nanda, S. N. Sahu & S. N. Behera. (2002) Liquid-drop model for the size-dependent melting of low-dimensional systems. Physical Review A 66:1.
Crossref
A. Johansen, E. Johnson, L. Sarholt, E. Dupont, H.H. Andersen & V.S. Touboltsev. (2002) Annealing reactions in lead implanted copper. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 190:1-4, pages 802-806.
Crossref
J Zhong, Z H Jin & K Lu. (2001) Melting, superheating and freezing behaviour of indium interpreted using a nucleation-and-growth model. Journal of Physics: Condensed Matter 13:50, pages 11443-11452.
Crossref
M. Zhao, X. H. Zhou & Q. Jiang. (2011) Comparison of different models for melting point change of metallic nanocrystals. Journal of Materials Research 16:11, pages 3304-3308.
Crossref
J I Akhter, Z H Jin & K Lu. (2001) Journal of Physics: Condensed Matter 13:35, pages 7969-7975.
Crossref
Victoria Bhattacharya & Kamanio Chattopadhyay. (2001) Microstructure and tribological behaviour of nano-embedded Al-alloys. Scripta Materialia 44:8-9, pages 1677-1682.
Crossref
E.V. Charnaya, P.G. Plotnikov, D. Michel, C. Tien, B.F. Borisov, I.G. Sorina & E.I. Martynova. (2001) Acoustic studies of melting and freezing for mercury embedded into Vycor glass. Physica B: Condensed Matter 299:1-2, pages 56-63.
Crossref
B.J Kooi & J.Th.M De Hosson. (2001) In-situ TEM analysis of the reduction of nanometre-sized Mn3O4 precipitates in a metal matrix. Acta Materialia 49:5, pages 765-774.
Crossref
Q Jiang, L H Liang & J C Li. (2001) Thermodynamic superheating and relevant interface stability of low-dimensional metallic crystals. Journal of Physics: Condensed Matter 13:4, pages 565-571.
Crossref
K Lu & Z.H Jin. (2001) Melting and superheating of low-dimensional materials. Current Opinion in Solid State and Materials Science 5:1, pages 39-44.
Crossref
Jeff Th. M. De Hosson & Bart J. Kooi. 2001. Handbook of Surfaces and Interfaces of Materials. Handbook of Surfaces and Interfaces of Materials 1 113 .
Q Jiang, Z Zhang & J.C Li. (2000) Melting thermodynamics of nanocrystals embedded in a matrix. Acta Materialia 48:20, pages 4791-4795.
Crossref
Z Zhang, J C Li & Q Jiang. (2000) Modelling for size-dependent and dimension-dependent melting of nanocrystals. Journal of Physics D: Applied Physics 33:20, pages 2653-2656.
Crossref
M. Zhang, M. Yu. Efremov, F. Schiettekatte, E. A. Olson, A. T. Kwan, S. L. Lai, T. Wisleder, J. E. Greene & L. H. Allen. (2000) Size-dependent melting point depression of nanostructures: Nanocalorimetric measurements. Physical Review B 62:15, pages 10548-10557.
Crossref
L. Zhang, Z. H. Jin, L. H. Zhang, M. L. Sui & K. Lu. (2000) Superheating of Confined Pb Thin Films. Physical Review Letters 85:7, pages 1484-1487.
Crossref
M Dubiel, S Brunsch & L Tröger. (2000) Characterization of nanoscale silver particles in glasses by temperature-dependent EXAFS spectroscopy. Journal of Physics: Condensed Matter 12:22, pages 4775-4789.
Crossref
Q Jiang, Z Zhang & Y.W Wang. (2000) Thermal stability of low dimensional crystals. Materials Science and Engineering: A 286:1, pages 139-143.
Crossref
Q Jiang, Z Zhang & J.C Li. (2000) Superheating of nanocrystals embedded in matrix. Chemical Physics Letters 322:6, pages 549-552.
Crossref
Bart J. Kooi & Jeff Th.M. De Hosson. (2011) In-Situ Tem Analysis of Nanometre-Sized Oxide Precipitates in a Metal Matrix. MRS Proceedings 654.
Crossref
B F Borisov, E V Charnaya, T Loeser, D Michel, C Tien, C S Wur & Yu A Kumzerov. (1999) Nuclear magnetic resonance, resistance and acoustic studies of the melting-freezing phase transition of gallium in Vycor glass. Journal of Physics: Condensed Matter 11:50, pages 10259-10268.
Crossref
Byung-Geol Kim. (1999) A large thermal hysteresis between melting and solidification temperature on nanoscale Pb particles embedded in amorphous sio2 matrix prepared by sputtering. Metals and Materials 5:3, pages 309-316.
Crossref
M. Jos&eacute; Yacam&aacute;n, C. Zorrilla, J. A. Ascencio, G. Mondrag&oacute;n & J. Reyes-Gasga. (1999) Study of High Resolution TEM Images of Nanoparticles either Supported on Amorphous Films or Embedded in a Crystalline Matrix. Materials Transactions, JIM 40:2, pages 141-145.
Crossref
E. Johnson, C.R.H. Bahl, V.S. Touboltsev & A. Johansen. (2011) Nanoscale Sn Inclusions in Al – Structure and Melting-Solidification Properties. MRS Proceedings 580.
Crossref
N. Wilson, A. K. Petford-Long, R. C. Doole, R. Serna & C. N. Afonso. (1998) The role of size effects on the crystallization of amorphous Ge in contact with Bi nanocrystals. Journal of Applied Physics 84:9, pages 5283-5290.
Crossref
B. F. Borisov, E. V. Charnaya, P. G. Plotnikov, W.-D. Hoffmann, D. Michel, Yu. A. Kumzerov, C. Tien & C.-S. Wur. (1998) Solidification and melting of mercury in a porous glass as studied by NMR and acoustic techniques. Physical Review B 58:9, pages 5329-5335.
Crossref
H.W. Sheng, K. Lu & E. Ma. (1998) Melting and freezing behavior of embedded nanoparticles in ball-milled Al–10 wt% M (M=In, Sn, Bi, Cd, Pb) mixtures. Acta Materialia 46:14, pages 5195-5205.
Crossref
Q. Jiang & F.G. Shi. (1998) Entropy for solid–liquid transition in nanocrystals. Materials Letters 37:1-2, pages 79-82.
Crossref
H.W. Sheng, K. Lu & E. Ma. (1998) Melting of embedded Pb nanoparticles monitored using high-temperature in situ XRD. Nanostructured Materials 10:5, pages 865-873.
Crossref
H. W. Sheng, F. Zhou, Z. Q .Hu & K. Lu. (2011) Investigation of Al–Pb nanocomposites synthesized by nonequilibrium processes. Journal of Materials Research 13:2, pages 308-315.
Crossref
Charles W. Allen, Anthony W. Mccormick, Bernard J. Kestel, Peter M. Baldo, Nestor J. Zaluzec & Lynn E. Rehn. (2011) Fabrication of a Simple Materials System for Study of Hg in a Stainless Steel. MRS Proceedings 540.
Crossref
Q. Jiang, H.Y. Tong, D.T. Hsu, K. Okuyama & F.G. Shi. (1998) Thermal stability of crystalline thin films. Thin Solid Films 312:1-2, pages 357-361.
Crossref
C Martet, M Treilleux, B Cabaud, G Fuchs & A Hoareau. (1997) Optical properties of In - cermets produced by low-energy cluster beam deposition. Journal of Physics D: Applied Physics 30:20, pages 2788-2793.
Crossref
U. Dahmen, E. Johnson, S.Q. Xiao & A. Johansen. (2013) High-Resolution-Electron-Microscopy Investigation of Nanosize Inclusions. MRS Bulletin 22:8, pages 49-52.
Crossref
E. Johnson, V.S. Touboltsev, A. Johansen, U. Dahmen & S. Hagège. (1997) TEM and RBS/channelling of nanosized bicrystalline (Pb,Cd) inclusions in Al made by sequential ion implantation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 127-128, pages 727-733.
Crossref
Hiroyuki Itoigawa, Takashi Kamiyama & Yoshio Nakamura. (1997) Bi precipitates in Na2O–B2O3 glasses. Journal of Non-Crystalline Solids 210:1, pages 95-100.
Crossref
V. S. Touboltsev, E. Johnson, U. Dahmen, A. Johansen, L. Sarholt & S. Q. Xiao. (2011) Formation of Pb Inclusions in Si by Ion Implantation. MRS Proceedings 504.
Crossref
H. W. Sheng, G. Ren, L. M. Peng, Z. Q. Hu & K. Lu. (2011) Epitaxial dependence of the melting behavior of In nanoparticles embedded in Al matrices. Journal of Materials Research 12:1, pages 119-123.
Crossref
U. Dahmen, SQ. Xiao, S. Paciornik, E. Johnson & A. Johansen. (1997) Magic-Size Equilibrium Shapes of Nanoscale Pb Inclusions in Al. Physical Review Letters 78:3, pages 471-474.
Crossref
K. Chattopadhyay & R. Goswami. (1997) Melting and superheating of metals and alloys. Progress in Materials Science 42:1-4, pages 287-300.
Crossref
H. W. Sheng, J. Xu, L. G. Yu, X. K. Sun, Z. Q. Hu & K. Lu. (2011) Melting process of nanometer-sized In particles embedded in an Al matrix synthesized by ball milling. Journal of Materials Research 11:11, pages 2841-2851.
Crossref
J.C. Sánchez-López, A. Fernández, C.F. Conde, A. Conde, C. Morant & J.M. Sanz. (1996) The melting behavior of passivated nanocrystalline aluminum. Nanostructured Materials 7:8, pages 813-822.
Crossref
E. D. Sweet, C. G. Bennett, I. Musulin, S. P. Lynch & R. B. Nethercott. (1996) Effects of alkali-metal impurities on fracture toughness of 2090 Al-Li-Cu extrusions. Metallurgical and Materials Transactions A 27:11, pages 3530-3541.
Crossref
G. Dybkj˦r, N. Kruse, A. Johansen, E. Johnson, L. Sarholt-Kristensen & K.K. Bourdelle. (1996) Melting and solidification of small indium particles embedded in an aluminum matrix. Surface and Coatings Technology 83:1-3, pages 82-87.
Crossref
K.K. Bourdelle, A. Johansen & E. Johnson. (1996) Channeling study of melting and solidification of lead nanocrystals in aluminium. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 118:1-4, pages 478-482.
Crossref
Hans Henrik Andersen & Erik Johnson. 1996. Ion Beam Modification of Materials. Ion Beam Modification of Materials 480 491 .
Hans Henrik Andersen & Erik Johnson. (1995) Structure, morphology and melting hysteresis of ion-implanted nanocrystals. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 106:1-4, pages 480-491.
Crossref
R. Goswami & K. Chattopadhyay. (1995) The superheating and the crystallography of embedded Pb particles in f.c.c. Al, Cu and Ni matrices. Acta Metallurgica et Materialia 43:7, pages 2837-2847.
Crossref
N B Thoft, J Bohr, B Buras, E Johnson, A Johansen, H H Andersen & L Sarholt-Kristensen. (1995) Melting and solidification of bismuth inclusions in aluminium. Journal of Physics D: Applied Physics 28:3, pages 539-548.
Crossref
Frank G. Shi. (2011) Size dependent thermal vibrations and melting in nanocrystals. Journal of Materials Research 9:5, pages 1307-1314.
Crossref
D. L. Zhang, J. L. Hutchinson & B. Cantor. (1994) Melting behaviour of cadmium particles embedded in an aluminium matrix. Journal of Materials Science 29:8, pages 2147-2151.
Crossref
J. Eckert, J.C. Holzer, C.C. Ahn, Z. Fu & W.L. Johnson. (1993) Melting behavior of nanocrystalline aluminum powders. Nanostructured Materials 2:4, pages 407-413.
Crossref
E. Johnson, A. Johansen, K.K. Bourdelle, H.H. Andersen & L. Sarholt-Kristensen. (2011) Nanosized Thallium Inclusions in Aluminium. MRS Proceedings 316.
Crossref
L. Grb, J. Bohr, H. H. Andersen, A. Johansen, E. Johnson, L. Sarholt-Kristensen & I. K. Robinson. (1992) Melting, growth, and faceting of lead precipitates in aluminum. Physical Review B 45:6, pages 2628-2637.
Crossref
B. Schmidt, K. Hjemsted, E. Johnson, K.K. Bourdelle, A. Johansen, H.H. Andersen & L. Sarholt-Kristensen. (1992) Size distributions of In and Pb inclusions in Al. Micron and Microscopica Acta 23:1-2, pages 215-216.
Crossref
H. Saka, K. Sasaki, T. Ohashi, I. Ohtsuka, T. Kamino & M. Tomita. (1991) In situ observations of solid-liquid interfaces. Ultramicroscopy 39:1-4, pages 110-117.
Crossref
W. T. Kim, D. L. Zhang & B. Cantor. (1991) Nucleation of solidification in liquid droplets. Metallurgical Transactions A 22:10, pages 2487-2501.
Crossref
Charles H. Martin & Sherwin J. Singer. (1991) Behavior of point defects in a model crystal near melting. Physical Review B 44:2, pages 477-488.
Crossref
D.L. Zhang & B. Cantor. (1991) Melting behaviour of In and Pb particles embedded in an Al matrix. Acta Metallurgica et Materialia 39:7, pages 1595-1602.
Crossref
J. Bohr. (1991) Epitaxial clusters in single crystal hosts. Zeitschrift f�r Physik D Atoms, Molecules and Clusters 20:1-4, pages 215-218.
Crossref
P. Lours, K. H. Westmacott & U. Dahmen. (2011) Shape Transformations of Ge Precipitates in Al. MRS Proceedings 238.
Crossref
E. Johnson, K. Hjemsted, B. Schmidt, K. K. Bourdelle, A. Johansen, H. H. Andersen & L. Sarholt-Kristensen. (2011) Small Lead and Indium Inclusions in Aluminium. MRS Proceedings 235.
Crossref
J. Bohr, L. Gråbæk, H. H. Andersen, A. Johansen, E. Johnson, L. Sarholt-Kristensen, V. Surganov, I. K. Robinson, D. Broddin & G. Van Tendeloo. 1991. Fundamental Aspects of Inert Gases in Solids. Fundamental Aspects of Inert Gases in Solids 265 276 .
J. S. C. Jang & C. C. Koch. (2011) Melting and possible amorphization of Sn and Pb in Ge/Sn and Ge/Pb mechanically milled powders. Journal of Materials Research 5:2, pages 325-333.
Crossref
L. Gråbaek, J. Bohr, E. Johnson, A. Johansen, L. Sarholt-Kristensen & H. Andersen. (1990) Superheating and supercooling of lead precipitates in aluminum. Physical Review Letters 64:8, pages 934-937.
Crossref
K. Chattopadhyay, P. R. Swarnamba & J. P. N. Srivastava. (1989) The evolution of microstructure in the undercooled Zn-Sn entrained droplets. Metallurgical Transactions A 20:10, pages 2109-2115.
Crossref
L. Gråbæk, J. Bohr, E. Johnson, H.H. Andersen, A. Johansen & L. Sarholt-Kristensen. (1989) X-ray studies of krypton, xenon and lead inclusions in aluminium single crystals. Materials Science and Engineering: A 115, pages 97-101.
Crossref
E. Johnson, L. Gråbaek, J. Bohr, A. Johansen, L. Sarholt-Kristensen & H.H. Andersen. (2011) Lead inclusions in aluminium. MRS Proceedings 157.
Crossref

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