Advanced search
Publication Cover
Philosophical Magazine A Volume 54, 1986 - Issue 5
Journal homepage
158
Views
91
CrossRef citations to date
0
Altmetric
Original Articles

Monovacancy and divacancy contributions to self-diffusion in face-centred cubic metals reanalysis for copper, silver, gold, nickel and platinum

G. Neumann Institut für Physikalische Chemie der Freien Universität Berlin, F.R. Germany
&
V. Tölle Institut für Physikalische Chemie der Freien Universität Berlin, F.R. Germany
Pages 619-629 | Received 11 Mar 1986, Accepted 25 Apr 1986, Published online: 04 Oct 2006

Citations (91)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (5)

Y. V. R. K. Prasad & K. P. Rao . (2004) Kinetics of high-temperature deformation of polycrystalline OFHC copper and the role of dislocation core diffusion. Philosophical Magazine 84:28, pages 3039-3050.
Read now
Alok Singh & S. Ranganathan. (1996) Indexing of decagonal quasicrystals I. The T8-phase. Philosophical Magazine A 74:4, pages 821-840.
Read now
G. Neumann & V. Tölle. (1995) A modified electrostatic model for the diffusion of electropositive impurities in noble metals II. Self-diffusion in dilute alloys and interdiffusion. Philosophical Magazine A 71:2, pages 249-261.
Read now
G. Neumann & V. Tölle. (1995) A modified electrostatic model for the diffusion of electropositive impurities in noble metals I. Impurity diffusion and isotope effect. Philosophical Magazine A 71:2, pages 231-247.
Read now
G. Neumann & V. Tölle. (1988) Monovacancy and divancy contributions to the impurity diffusion in face-centred cubic metals. Philosophical Magazine A 57:4, pages 621-630.
Read now

Articles from other publishers (86)

Zhongwen Shi, Genfeng Shang & Xiao-Gang Lu. (2024) Thermodynamic assessment of the Ni–Co-Re system and diffusion study of its fcc phase. Calphad 85, pages 102688.
Crossref
H. Bai, R. Su, R.Z. Zhao, C.L. Hu, L.Z. Ji, Y.J. Liao, Y.N. Zhang, Y.X. Li & X.F. Zhang. (2024) Oxidation behavior and microstructural evolution of FeCoNiTiCu five-element high-entropy alloy nanoparticles. Journal of Materials Science & Technology 177, pages 133-141.
Crossref
Chun-Hao Chen, Meng-Ting Chiang & Tung-Han Chuang. (2023) Investigation of Creep Failure in Ag-4Pd Bonding Wire Under Dynamic Mechanical Analysis Tests. IEEE Transactions on Components, Packaging and Manufacturing Technology 13:12, pages 1944-1950.
Crossref
Peter Schweizer, Amit Sharma, Laszlo Pethö, Emese Huszar, Lilian Maria Vogl, Johann Michler & Xavier Maeder. (2023) Atomic scale volume and grain boundary diffusion elucidated by in situ STEM. Nature Communications 14:1.
Crossref
Min Wang, Guodong Fan, Chengyang Ma, Yu Mei, Tao Luo, Weisen Zheng & Jiang Wang. (2023) Thermodynamic Assessment of the Fe–Mn–Ni System and Diffusion Mobility of Its Face-Centered Cubic Phase. Processes 11:11, pages 3216.
Crossref
Xue-Ting Wu, Lina Azhati, Cheng-Hui Xia & Xiao-Gang Lu. (2023) Study on diffusion and Kirkendall effect in diffusion triples for fcc Ni–Al–Ta alloys. Calphad 82, pages 102566.
Crossref
Weisen Zheng, Tong Wu, Tao Luo & Xiao-Gang Lu. (2023) High-throughput study of atomic mobility in face-centered cubic Ni–Cu–Fe alloys through coupling two-dimensional diffusion simulations and diffusion triple experiments. Journal of Alloys and Compounds 942, pages 168956.
Crossref
Ramona Henle, Julia Dölling, Ulrich Prahl, Gerrit Nandi & Andreas Zilly. (2023) DSC Analysis of the Effect of Cold Deformation on the Precipitation Kinetics of a Binary Cu-Sc Alloy. Materials 16:9, pages 3462.
Crossref
Zi-tian Zhang, Jing-jing Wang, Wei Liu & Xiao-gang Lu. (2022) Simulation of BCC dissolution in Fe–Cr–Ni system by ICME. Journal of Iron and Steel Research International 30:4, pages 660-676.
Crossref
Xue-Ting Wu, Cheng-Hui Xia, Shi-Lin Xia, You-Ming Lu & Xiao-Gang Lu. (2023) High-throughput measurements of interdiffusivities in fcc Co–Ni–Ta alloys at 1373K and 1473K. Calphad 80, pages 102518.
Crossref
You-Ming Lu, Cheng-Hui Xia & Xiao-Gang Lu. (2022) Diffusion assessments for the Al–Cu–Ni system by diffusion triple experiment and two-dimensional diffusion simulation. Calphad 78, pages 102451.
Crossref
P.H.F. Oliveira, D.C.C. Magalhães, L.F.K. Unti, O.M. Cintho, A.M. Kliauga & V.L. Sordi. (2022) Tailoring the microstructure of a Cu-0.7Cr-0.07Zr alloy submitted to ECAP at cryogenic temperature for improved thermal stability. Materials Characterization 190, pages 112045.
Crossref
Cheng-Hui Xia, Genfeng Shang, Ying Li & Xiao-Gang Lu. (2022) Diffusion study by diffusion quadruple experiment and two-dimensional simulation. Scripta Materialia 216, pages 114760.
Crossref
Michael L. Santella, Peter F. Tortorelli, Mark Render, Bruce Pint, Hong Wang, Vito CedroIIIIII & Xiang (Frank) Chen. (2022) Effects of applied stress and grain size on creep-rupture lifetime prediction for Haynes 282 alloy. Materials Science and Engineering: A 838, pages 142785.
Crossref
Yao Jiang, Rui Cong Gu, Martin Peterlechner, Yu Wei Liu, Jing Tao Wang & Gerhard Wilde. (2021) Impurity effect on recrystallization and grain growth in severe plastically deformed copper. Materials Science and Engineering: A 824, pages 141786.
Crossref
Katrin Abrahams, Setareh Zomorodpoosh, Ahmadreza Riyahi Khorasgani, Irina Roslyakova, Ingo Steinbach & Julia Kundin. (2021) Automated assessment of a kinetic database for fcc Co–Cr–Fe–Mn–Ni high entropy alloys. Modelling and Simulation in Materials Science and Engineering 29:5, pages 055007.
Crossref
Zhen Bang Wei, Cui Ping Wang, Wei Wei Xu, Jia Jia Han, Yong Lu & Xing Jun Liu. (2021) A predictive model of impurity diffusion coefficients in face-centered-cubic metallic systems based on machine-learning. Calphad 72, pages 102251.
Crossref
Cheng-Hui Xia, Yang Wang, Jing-Jing Wang, Xiao-Gang Lu & Lijun Zhang. (2021) Thermodynamic assessment of the Co–Fe–Ni system and diffusion study of its fcc phase. Journal of Alloys and Compounds 853, pages 157165.
Crossref
Sumanta Bagui, Bibhu Prasad Sahu, Kinkar Laha, Soumitra Tarafder & Rahul Mitra. (2020) Creep Deformation Behavior of Inconel 617 Alloy in the Temperature Range of 650 °C to 800 °C. Metallurgical and Materials Transactions A 52:1, pages 94-107.
Crossref
Ning Zhao, Wei Liu, Jing-Jing Wang, Xiao-Gang Lu & Lijun Zhang. (2020) Thermodynamic assessment of the Ni–Co–Cr system and Diffusion Study of its fcc phase. Calphad 71, pages 101996.
Crossref
Yousf Islem Bourezg, Khadidja Abib, Hiba Azzeddine & Djamel Bradai. (2020) Kinetics of Cr clustering in a Cu-Cr-Zr alloy processed by equal-channel angular pressing: A DSC study. Thermochimica Acta 686, pages 178550.
Crossref
M. Di Pietro Martínez & M. Hoyuelos. (2019) Diffusion in binary mixtures: An analysis of the dependence on the thermodynamic factor. Physical Review E 100:2.
Crossref
C. P. Wang, X. Yu, S. Y. Qin, Z. B. Wei, J. B. Zhang, Y. X. Huang, Y. H. Guo, Y. Lu & X. J. Liu. (2019) Interdiffusion and Atomic Mobilities in fcc Ni-Mo-Ta Alloys. Journal of Phase Equilibria and Diffusion 40:3, pages 432-441.
Crossref
. (2018) DGM News. International Journal of Materials Research 109:7, pages 682-682.
Crossref
Yang Wang, Jingjing Wang, Hao Wang, Xiao-Gang Lu & Lijun Zhang. (2018) Thermodynamic description of the Ni-Mo-W system and interdiffusion study of its fcc phase. Calphad 61, pages 165-172.
Crossref
Yang Wang & Xiao-Gang Lu. (2017) Interdiffusion and Diffusion Mobility for Fcc Ni-Co-Mo Alloys. Journal of Phase Equilibria and Diffusion 38:5, pages 656-664.
Crossref
Yang Wang, Naqiong Zhu, Hao Wang & Xiao-Gang Lu. (2016) Interdiffusion and Diffusion Mobility for fcc Ni-Co-Al Alloys. Metallurgical and Materials Transactions A 48:3, pages 943-947.
Crossref
Jianfang Wang, Yang Wang, Naqiong Zhu & Xiao-Gang Lu. (2017) Experimental and Computational Study of Interdiffusion for fcc Ni-Co-W Alloys. Journal of Phase Equilibria and Diffusion 38:1, pages 37-50.
Crossref
Arijit Laik & Gautam Kumar Dey. 2017. Handbook of Solid State Diffusion, Volume 2. Handbook of Solid State Diffusion, Volume 2 339 377 .
Naqiong Zhu, Xiaojun Xu, Xiao-Gang Lu, Yanlin He, Jieyu Zhang & Hu Jiang. (2016) Experimental and computational study of diffusion mobilities for fcc Ni–Cu–Mn alloys. Calphad 54, pages 97-106.
Crossref
Martin A. Noah, David Flötotto, Zumin Wang, Markus Reiner, Christoph Hugenschmidt & Eric J. Mittemeijer. (2016) Interdiffusion in epitaxial, single-crystalline Au/Ag thin films studied by Auger electron spectroscopy sputter-depth profiling and positron annihilation. Acta Materialia 107, pages 133-143.
Crossref
Walid Mohamed, Brandon Miller, Douglas Porter & Korukonda Murty. (2016) The Role of Grain Size on Neutron Irradiation Response of Nanocrystalline Copper. Materials 9:3, pages 144.
Crossref
Xiaojun Xu, Naqiong Zhu, Weisen Zheng & Xiao-Gang Lu. (2016) Experimental and computational study of interdiffusion for fcc Ni–Cu–Cr alloys. Calphad 52, pages 78-87.
Crossref
A. Bachmaier, M. Pfaff, M. Stolpe, H. Aboulfadl & C. Motz. (2015) Phase separation of a supersaturated nanocrystalline Cu–Co alloy and its influence on thermal stability. Acta Materialia 96, pages 269-283.
Crossref
A Bachmaier, M Stolpe, T Müller & C Motz. (2015) Phase decomposition and nano structure evolution of metastable nanocrystalline Cu-Co solid solutions during thermal treatment. IOP Conference Series: Materials Science and Engineering 89, pages 012017.
Crossref
Yu Wang, D. Connétable & D. Tanguy. (2015) Hydrogen influence on diffusion in nickel from first-principles calculations. Physical Review B 91:9.
Crossref
Ya Li Wang, Rimma Lapovok, Jing Tao Wang, Yuan Shen Qi & Yuri Estrin. (2015) Thermal behavior of copper processed by ECAP with and without back pressure. Materials Science and Engineering: A 628, pages 21-29.
Crossref
Qin-Na Fan, Chong-Yu Wang, Tao Yu & Jun-Ping Du. (2015) A ternary Ni–Al–W EAM potential for Ni-based single crystal superalloys. Physica B: Condensed Matter 456, pages 283-292.
Crossref
Youngmoo Kim, Sung Ho Lee, Seong Lee & Joon-Woong Noh. (2012) Characterization of hot deformation behaviors of wrought and P/M oxygen free coppers (OFCs) using processing maps. Materials Science and Engineering: A 552, pages 276-282.
Crossref
Garima Sharma, Jalaj Varshney, A.C. Bidaye & J.K. Chakravartty. (2012) Grain growth characteristics and its effect on deformation behavior in nanocrystalline Ni. Materials Science and Engineering: A 539, pages 324-329.
Crossref
C.E. Campbell & A.L. Rukhin. (2011) Evaluation of self-diffusion data using weighted means statistics. Acta Materialia 59:13, pages 5194-5201.
Crossref
E H Megchiche, C Mijoule & M Amarouche. (2010) First principles calculations of vacancy–vacancy interactions in nickel: thermal expansion effects. Journal of Physics: Condensed Matter 22:48, pages 485502.
Crossref
F. Sket, A. Isaac, K. Dzieciol, G. Sauthoff, A. Borbély & A.R. Pyzalla. (2008) In situ tomographic investigation of brass during high-temperature creep. Scripta Materialia 59:5, pages 558-561.
Crossref
M. Engin Ayturk, E.A. Payzant, S.A. Speakman & Y.H. Ma. (2008) Isothermal nucleation and growth kinetics of Pd/Ag alloy phase via in situ time-resolved high-temperature X-ray diffraction (HTXRD) analysis. Journal of Membrane Science 316:1-2, pages 97-111.
Crossref
Gerhard Neumann & Cornelis Tuijn. 2008. 1 35 .
Gerhard Neumann & Cornelis Tuijn. 2008. 259 316 .
Gerhard Neumann & Cornelis Tuijn. 2008. 37 97 .
P.N. Kalu & D.R. Waryoba. (2007) A JMAK-microhardness model for quantifying the kinetics of restoration mechanisms in inhomogeneous microstructure. Materials Science and Engineering: A 464:1-2, pages 68-75.
Crossref
Jian-Min Zhang, Xiang-Lei Song & Ke-Wei Xu. (2007) Atomistic simulation of the vacancy in Ni (110) surface. Applied Surface Science 253:8, pages 3785-3788.
Crossref
Y.V.R.K. Prasad & K.P. Rao. (2006) Influence of oxygen on the processing maps for hot working of electrolytic tough pitch copper. Materials Letters 60:21-22, pages 2786-2790.
Crossref
El Hocine Megchiche, Simon Pérusin, Jean-Claude Barthelat & Claude Mijoule. (2006) Density functional calculations of the formation and migration enthalpies of monovacancies in Ni: Comparison of local and nonlocal approaches. Physical Review B 74:6.
Crossref
Y. V. R. K. Prasad & K. P. Rao. (2006) Effect of Oxygen Content on the Processing Maps for Hot Deformation of OFHC Copper. Journal of Engineering Materials and Technology 128:2, pages 158-162.
Crossref
G. Neumann, V. Tölle & C. Tuijn. (2005) Application of the modified electrostatic model to diffusion of transition metals in noble metals. Physica B: Condensed Matter 363:1-4, pages 7-18.
Crossref
Y.V.R.K. Prasad & K.P. Rao. (2005) Processing maps and rate controlling mechanisms of hot deformation of electrolytic tough pitch copper in the temperature range 300–950°C. Materials Science and Engineering: A 391:1-2, pages 141-150.
Crossref
D. A. Andersson & S. I. Simak. (2004) Monovacancy and divacancy formation and migration in copper: A first-principles theory. Physical Review B 70:11.
Crossref
Y.V.R.K Prasad & K.P Rao. (2004) Mechanisms of high temperature deformation in electrolytic copper in extended ranges of temperature and strain rate. Materials Science and Engineering: A 374:1-2, pages 335-341.
Crossref
Y.V.R.K Prasad & K.P Rao. (2004) Influence of oxygen on rate-controlling mechanisms in hot deformation of polycrystalline copper: oxygen-free versus electrolytic grades. Materials Letters 58:14, pages 2061-2066.
Crossref
Thomas R. Mattsson & Ann E. Mattsson. (2002) Calculating the vacancy formation energy in metals: Pt, Pd, and Mo. Physical Review B 66:21.
Crossref
G Neumann & C Tuijn. (2002) Application of the thermodynamic model to the diffusion of substitutionally dissolved impurities in lead. Physica B: Condensed Matter 319:1-4, pages 343-349.
Crossref
G. Neumann, V. Tölle & C. Tuijn. (2001) Application of the modified electrostatic model to the impurity diffusion in cobalt. Physica B: Condensed Matter 304:1-4, pages 298-303.
Crossref
G Neumann, V Tölle & C Tuijn. (1999) Monovacancies and divacancies in copper. Physica B: Condensed Matter 271:1-4, pages 21-27.
Crossref
Yaakov Kraftmakher. (1998) Equilibrium vacancies and thermophysical properties of metals. Physics Reports 299:2-3, pages 79-188.
Crossref
A. Almazouzi, M.-P. Macht, V. Naundorf & G. Neumann. (1998) Diffusion of Manganese, Chromium, and Titanium in Single Crystalline Copper. physica status solidi (a) 167:1, pages 15-28.
Crossref
G. Neumann & V. Tölle. (1996) Application of the modified electrostatic model to the impurity diffusion in nickel. Applied Physics A: Materials Science and Processing 63:4, pages 377-380.
Crossref
A. Almazouzi, M. -P. Macht, V. Naundorf & G. Neumann. (1996) Diffusion of iron and nickel in single-crystalline copper. Physical Review B 54:2, pages 857-863.
Crossref
K.C. Goretta, J.L. Routbort, R.L. Thayer, J.P. Carroll, J. Wolfenstine, J. Kessler & J. Schwartz. (1996) Deformation of Ag/1.2 at.% Mg. Physica C: Superconductivity 265:3-4, pages 201-206.
Crossref
K C Goretta, W E Delaney, J L Routbort, J Wolfenstine, W Zhang & E E Hellstrom. (1996) Creep of silver at C. Superconductor Science and Technology 9:5, pages 422-426.
Crossref
L. Zhao, R. Najafabadi & D. J. Srolovtz. (2011) An Atomistic Study of Surface Vacancy Diffusion. MRS Proceedings 311.
Crossref
A. Almazouzi, M. -P. Macht, V. Naundorf & G. Neumann. (1992) Diffusion of Beryllium in Single Crystalline Copper. Physica Status Solidi (a) 133:2, pages 305-315.
Crossref
G. de Lorenzi & F Ercolessi. (1992) Multiple Jumps and Vacancy Diffusion in a Face-Centered-Cubic Metal. Europhysics Letters (EPL) 20:4, pages 349-355.
Crossref
J. R. Cahoon & Oleg D. Sherby. (1992) The activation energy for lattice Self-Diffusion and the Engel-Brewer Theory. Metallurgical Transactions A 23:9, pages 2491-2500.
Crossref
. 1992. Smithells Metals Reference Book. Smithells Metals Reference Book 13-1 13-119 .
Theodor Heumann & Helmut MehrerTheodor Heumann & Helmut Mehrer. 1992. Diffusion in Metallen. Diffusion in Metallen 103 130 .
A. D. LeClaire & G. Neumann. 1990. Diffusion in Solid Metals and Alloys. Diffusion in Solid Metals and Alloys 203 212 .
A. D. LeClaire & G. Neumann. 1990. Diffusion in Solid Metals and Alloys. Diffusion in Solid Metals and Alloys 178 191 .
G Neumann & V Tolle. (1989) Fast-diffusing substitutionally dissolved impurities in FCC metals: a theoretical approach. Journal of Physics: Condensed Matter 1:40, pages 7295-7302.
Crossref
D. L. Bekf, G. Neumann & I. A. Szabó. (2006) Relations between Characteristics of Point Defects and Bulk Properties of Solids a Criticism of the Varotsos‐Alexopoulos Model. physica status solidi (b) 155:2, pages 385-395.
Crossref
G Neumann & D L Beke. (1989) Remarks on the comments on the diffusion of Ni and Ge in Ni made by Hadjicontis and co-workers. Journal of Physics: Condensed Matter 1:23, pages 3691-3694.
Crossref
J. B. Adams, S. M. Foiles & W. G. Wolfer. (2011) Self-diffusion and impurity diffusion of fee metals using the five-frequency model and the Embedded Atom Method. Journal of Materials Research 4:1, pages 102-112.
Crossref
J. B. Adams, S. M. Foiles & W. G. Wolfer. 1989. Atomistic Simulation of Materials. Atomistic Simulation of Materials 419 424 .
Y. Iijima, K. Kimura & K. Hirano. (1988) Self-diffusion and isotope effect in α-iron. Acta Metallurgica 36:10, pages 2811-2820.
Crossref
G. Neumann, C. Tuijn, G. de Vries & H. Bakker. (2006) Diffusion Mechanisms in B.C.C. Metals. Calculation of the Correlation Factor for Mixed Nearest and Next‐Nearest Neighbour Vacancy Jumps. physica status solidi (b) 149:2, pages 483-493.
Crossref
A.J. Adams & W.G. Wolfer. (1988) On the diffusion mechanisms of helium in nickel. Journal of Nuclear Materials 158, pages 25-29.
Crossref
G. Neumann. (2006) A Model for the Calculation of Monovacancy and Divacancy Contributions to the Impurity Diffusion in Noble Metals. physica status solidi (b) 144:1, pages 329-341.
Crossref
Xue-Ting Wu, Cheng-Hui Xia, Shi-Lin Xia, You-Ming Lu & Xiao-Gang Lu. (2022) High-Throughput Measurements of Interdiffusivities in Fcc Co-Ni-Ta Alloys at 1373k and 1473k. SSRN Electronic Journal.
Crossref
Pedro Oliveira, Danielle Cristina Camilo Magalhães, Luiz Fernando Unti, O.M Cintho, Andrea Kliauga & Vitor Luiz Sordi. (2022) Tailoring the Microstructure of a Cu-0.7cr-0.07zr Alloy Submitted to Ecap at Cryogenic Temperature for Improved Thermal Stability. SSRN Electronic Journal.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.