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Philosophical Magazine Letters Volume 68, 1993 - Issue 4
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Original Articles

The superheating of Pb embedded in a Zn matrix the role of interface melting

R. Goswami Department of Metallurgy, Indian Institute of Science, Bangalore, 560 012, India
&
K. Chattopadhyay Department of Metallurgy, Indian Institute of Science, Bangalore, 560 012, India
Pages 215-223 | Received 03 Mar 1993, Accepted 15 May 1993, Published online: 27 Sep 2006

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T. Mizoguchi & U. Dahmen. (2009) 3D shape and orientation of nanoscale Pb inclusions at grain boundaries in Al observed by TEM and STEM tomography. Philosophical Magazine Letters 89:2, pages 104-112.
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Dibyendu Ganguli. (2008) Size Effect in Melting: A Historical Overview. Transactions of the Indian Ceramic Society 67:2, pages 49-62.
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A. Singh & A. P. Tsai. (2007) Interfaces of bismuth with Al–Cu–Fe icosahedral quasicrystal. Philosophical Magazine Letters 87:2, pages 85-94.
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U. Dahmen , S. Hagège, F. Faudot, T. Radetic & E. Johnson. (2004) Observations of interface premelting at grain-boundary precipitates of Pb in Al. Philosophical Magazine 84:25-26, pages 2651-2662.
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Articles from other publishers (43)

Alok Singh, Hidetoshi Somekawa, Takanobu Hiroto, Machiko Ode, Karel Tesař, Jaroslav Čech & Toru Hara. (2023) Dispersion of stable quasicrystal phase by precipitation during extrusion in a Mg-Zn-Al alloy: Microstructure and mechanical properties. Materials Science and Engineering: A, pages 145979.
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Menghan Liu, Peiling Ren, Hu Qiao, Miaomiao Zhang, Wenxuan Wu, Baoping Li, Hongjun Wang, Daobin Luo, Jianke Liu & Youqing Wang. (2023) High Temperature-Resistant Transparent Conductive Films for Photoelectrochemical Devices Based on W/Ag Composite Nanonetworks. Nanomaterials 13:4, pages 708.
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Mohammad Amin Jabbareh. (2022) A unified bond energy model for size-dependent melting temperature of freestanding and embedded nanomaterials. Solid State Communications 355, pages 114923.
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Yueli Zhang & Hani E. Elsayed-Ali. (2022) Premelting of bismuth nanoparticles embedded in aluminum. Journal of Materials Science 57:37, pages 17839-17848.
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Gerhard Wilde. (2021) Structural Phase Transformations in Nanoscale Systems. Advanced Engineering Materials 23:5, pages 2001387.
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Wei Wang, Hui Xiang, Ghulam Hussain, Dejing Yu, Yisha Zhu, Letian Zhang, Sergey V. Samoilenkov, Andrey R. Kaul & Xin Yao. (2018) Melting behavior and superheating capacity of REBa 2 Cu 3 O y films with nano-layer buffered structures . Journal of the American Ceramic Society 101:4, pages 1704-1710.
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Dudekula Althaf Basha, N. Ravishankar & K. Chattopadhyay. (2018) Phase stability behavior of nanoscaled lead-bismuth peritectic alloys embedded in zinc matrix. Scripta Materialia 143, pages 68-71.
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Bangwei Zhang. 2018. Physical Fundamentals of Nanomaterials. Physical Fundamentals of Nanomaterials 251 289 .
Jinhua Zhu, Qingshan Fu, Yongqiang Xue & Zixiang Cui. (2017) Accurate thermodynamic relations of the melting temperature of nanocrystals with different shapes and pure theoretical calculation. Materials Chemistry and Physics 192, pages 22-28.
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Dudekula Althaf Basha, N. Ravishankar & K. Chattopadhyay. (2017) Size-dependent solubility and phase transformation behavior of Sn–Cd nanoparticles in an Al matrix. Journal of Materials Science 52:9, pages 5194-5207.
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L M Shen, H F Hou, C Y Yao & L W Wang. (2017) Insignificant influence of the matrix on the melting of incoherently embedded tin and zinc nanoparticles. Journal of Physics: Condensed Matter 29:3, pages 035004.
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Yuanyuan Chen, Xiangxiang Cui & Xin Yao. (2015) Peritectic melting of thin films, superheating and applications in growth of REBCO superconductors. Progress in Materials Science 68, pages 97-159.
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H. Li, H. J. Xiao, T. S. Zhu, H. C. Xuan & M. Li. (2015) The effect of the size and shape on the bond number of quantum dots and its relationship with thermodynamic properties. Physical Chemistry Chemical Physics 17:27, pages 17973-17979.
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Wenhua Luo, Wangyu Hu, Kalin Su & Kemin Li. (2012) Gibbs free energy approach to the prediction of melting points of isolated, supported, and embedded nanoparticles. Journal of Applied Physics 112:1.
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Francesco Delogu. (2011) Melting of Pb clusters encapsulated in large fullerenes. Chemical Physics 383:1-3, pages 12-18.
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H. M. Lu, P. Y. Li, Z. H. Cao & X. K. Meng. (2009) Size-, Shape-, and Dimensionality-Dependent Melting Temperatures of Nanocrystals. The Journal of Physical Chemistry C 113:18, pages 7598-7602.
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Bhupal Reddy, P. Bhattacharya, Bawa Singh & K. Chattopadhyay. (2009) The effect of ball milling on the melting behavior of Sn–Cu–Ag eutectic alloy. Journal of Materials Science 44:9, pages 2257-2263.
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F Ruffino, MG Grimaldi, F Giannazzo, F Roccaforte & V Raineri. (2008) Thermodynamic Properties of Supported and Embedded Metallic Nanocrystals: Gold on/in SiO2. Nanoscale Research Letters 3:11.
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Joysurya Basu, R. Divakar, Julia Nowak, Stephan Hofmann, Alan Colli, A. Franciosi & C. Barry Carter. (2008) Structure and growth mechanism of ZnSe nanowires. Journal of Applied Physics 104:6.
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Sanjeev K. Gupta, Mina Talati & Prafulla K. Jha. (2008) Shape and Size Dependent Melting Point Temperature of Nanoparticles. Materials Science Forum 570, pages 132-137.
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Q.S. Mei & K. Lu. (2007) Melting and superheating of crystalline solids: From bulk to nanocrystals. Progress in Materials Science 52:8, pages 1175-1262.
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Guillaume Audoit, Jaideep S. Kulkarni, Michael A. Morris & Justin D. Holmes. (2007) Size dependent thermal properties of embedded crystalline germanium nanowires. Journal of Materials Chemistry 17:16, pages 1608.
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Y.Q. Cai & X. Yao. (2005) Microstructure of YBCO thin film and its effect on superheating. Applied Physics A 81:8, pages 1675-1679.
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J I Akhter. (2005) Size-dependent superheating in confined Pb(111) films. Journal of Physics: Condensed Matter 17:1, pages 53-60.
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R. Goswami & K. Chattopadhyay. (2004) Melting of Bi nanoparticles embedded in a Zn matrix. Acta Materialia 52:19, pages 5503-5510.
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Zhan Shi, Paul Wynblatt & S.G Srinivasan. (2004) Melting behavior of nanosized lead particles embedded in an aluminum matrix. Acta Materialia 52:8, pages 2305-2316.
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Q. Jiang, L.H. Liang & J.C. Li. (2003) Thermodynamic superheating of low-dimensional metals embedded in matrix. Vacuum 72:3, pages 249-255.
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F. Banhart, E. Hernández & M. Terrones. (2003) Extreme Superheating and Supercooling of Encapsulated Metals in Fullerenelike Shells. Physical Review Letters 90:18.
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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.
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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.
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J I Akhter, Z H Jin & K Lu. (2001) Journal of Physics: Condensed Matter 13:35, pages 7969-7975.
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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.
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Q Jiang, Z Zhang & J.C Li. (2000) Melting thermodynamics of nanocrystals embedded in a matrix. Acta Materialia 48:20, pages 4791-4795.
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Alok Singh & A.-P Tsai. (2000) The nature of lead–quasicrystal interfaces and its effect on the melting behaviour of lead nanoparticles embedded in quasicrystalline matrices. Materials Science and Engineering: A 294-296, pages 160-163.
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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.
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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.
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Q Jiang, Z Zhang & J.C Li. (2000) Superheating of nanocrystals embedded in matrix. Chemical Physics Letters 322:6, pages 549-552.
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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.
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R. Goswami, K. Chattopadhyay & P.L. Ryder. (1998) Melting of Pb particles embedded in Cu–Zn matrices. Acta Materialia 46:12, pages 4257-4271.
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Alok Singh & A. P. Tsai. (2011) Melting And Solidification Behaviour Of Lead Particles Embedded In Quasicrystalline Matrices. MRS Proceedings 553.
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K. Chattopadhyay & R. Goswami. (1997) Melting and superheating of metals and alloys. Progress in Materials Science 42:1-4, pages 287-300.
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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.
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R.V. Ramanujan. (1995) Equilibrium crystal shapes and their application to nucleation in solids. Materials Science and Engineering: B 32:3, pages 125-135.
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