Psychology of Women PSYC 330 Fall 2010 Tammy Lynn Kirichenko.
V.G. Kirichenko physical series , issue 2 /54/ Diffusion...
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ɍȾɄ 548.1:533.9 ȾɂɎɎɍɁɂə ȼ ɉɊɂɉɈȼȿɊɏɇɈɋɌɇɕɏ ɋɅɈəɏ ɈɄɋɂȾɇɕɏ ȼɄɅɘɑȿɇɂɃ ȼ ȾɂɋɉȿɊɋɇɈɍɉɊɈɑɇȿɇɇɈɆ Į-Fe ȼ.Ƚ. Ʉɢɪɢɱɟɧɤɨ 1 , Ɉ.ȼ. Ʉɨɜɚɥɟɧɤɨ 1 , Ɇ.Ƚ. Ʉɨɦɩɚɧɟɟɰ 2 , ȼ.ɇ. Ʌɟɨɧɨɜ 1 1 ɏɚɪɶɤɨɜɫɤɢɣ ɧɚɰɢɨɧɚɥɶɧɵɣ ɭɧɢɜɟɪɫɢɬɟɬ ɢɦ. ȼ.ɇ. Ʉɚɪɚɡɢɧɚ 61108, ɝ. ɏɚɪɶɤɨɜ, ɩɪ. Ʉɭɪɱɚɬɨɜɚ, 31 2 Goethe-Universität Frankfurt Senckenberganlage 31, 60325, Frankfurt am Main E-mail: [email protected] Received 20 March 2012, accepted 14 May 2012 ɉɪɟɞɫɬɚɜɥɟɧɵ ɪɟɡɭɥɶɬɚɬɵ ɚɧɚɥɢɡɚ ɤɨɧɰɟɧɬɪɚɰɢɨɧɧɵɯ ɡɚɜɢɫɢɦɨɫɬɟɣ ɷɥɟɦɟɧɬɧɨɝɨ ɫɨɫɬɚɜɚ ɜɤɥɸɱɟɧɢɣ ɢ ɦɚɬɪɢɰɵ ɞɥɹ ɨɩɪɟɞɟɥɟɧɢɹ ɫɪɚɜɧɢɬɟɥɶɧɵɯ ɡɧɚɱɟɧɢɣ ɤɨɷɮɮɢɰɢɟɧɬɨɜ ɞɢɮɮɭɡɢɢ ɜ ɞɢɫɩɟɪɫɧɨɭɩɪɨɱɧɟɧɧɵɯ ɫɩɥɚɜɚɯ ɧɚ ɨɫɧɨɜɟ ɠɟɥɟɡɚ. ɑɢɫɥɟɧɧɵɦ ɦɨɞɟɥɢɪɨɜɚɧɢɟɦ ɩɨ ɞɜɭɦɟɪɧɵɦ ɞɚɧɧɵɦ ɩɨɥɭɱɟɧɚ ɬɪɟɯɦɟɪɧɚɹ ɮɨɪɦɚ ɨɤɫɢɞɧɵɯ ɜɤɥɸɱɟɧɢɣ. Ɉɩɪɟɞɟɥɟɧɵ ɡɧɚɱɟɧɢɹ ɞɥɹ D Al , D Y ɜ ɠɟɥɟɡɟ ɫ ɩɪɢɜɥɟɱɟɧɢɟɦ ɥɢɬɟɪɚɬɭɪɧɵɯ ɞɚɧɧɵɯ ɩɨ ɞɢɮɮɭɡɢɢ ɠɟɥɟɡɚ ɜ ɪɚɡɥɢɱɧɵɯ ɬɟɦɩɟɪɚɬɭɪɧɵɯ ɞɢɚɩɚɡɨɧɚɯ. ɉɨ ɩɨɥɭɱɟɧɧɵɦ ɞɚɧɧɵɦ, ɤɨɷɮɮɢɰɢɟɧɬɵ ɞɢɮɮɭɡɢɢ ɷɥɟɦɟɧɬɨɜ ɜɤɥɸɱɟɧɢɹ (Y, Al, Ti) ɜ ɫɥɭɱɚɟ ɦɨɞɟɥɶɧɨɣ ɫɢɫɬɟɦɵ ɜɵɲɟ, ɱɟɦ ɤɨɷɮɮɢɰɢɟɧɬ ɫɚɦɨɞɢɮɮɭɡɢɢ ɠɟɥɟɡɚ. ɄɅɘɑȿȼɕȿ ɋɅɈȼȺ: ɠɟɥɟɡɨ, ɧɚɧɨɱɚɫɬɢɰɵ, ɨɤɫɢɞɵ, ɢɬɬɪɢɣ, ɫɬɪɭɤɬɭɪɚ, ɮɚɡɨɜɵɣ ɫɨɫɬɚɜ, ɞɢɮɮɭɡɢɹ. DIFFUSION IN THE SURFACE LAYERS OF OXIDE INCLUSIONS IN DISPERSE STRENGTHENING Į-Fe V.G. Kirichenko 1 , O.V. Kovalenko 1 , M.G. Kompaniiets 2 , V.N. Leonov 1 1 Kharkov Karazin National University 31 Kurchatov St., Kharkov, 61108 2 Goethe-Universität Frankfurt Senckenberganlage 31, 60325, Frankfurt am Main The results of the concentration dependence analyzing of the inclusions elemental composition and the matrix to determine the comparative values of diffusion coefficients in disperse strengthening Į-iron. Numerical simulation of two-dimensional data is allowed to obtain the three-dimensional forms of oxide inclusions. The values for D Al , D Y in the iron, involving published data on the diffusion of iron in different temperature ranges. According to our data, the diffusion coefficients of the elements included (Y, Al, Ti) in the case of the model system is higher than the self-diffusion coefficient of iron. KEY WORDS: iron, nanoparticles, oxide, yttrium, structure, phase composition, diffusion. ȾɂɎɍɁȱə ȼ ɉɊɂɉɈȼȿɊɏɇȿȼɂɏ ɒȺɊȺɏ ɈɄɋɂȾɇɂɏ ȼɄɅɘɑȿɇɖ ɍ ȾɂɋɉȿɊɋɇɈɁɆȱɐɇȿɇɈɆɍ Į -Fe ȼ.Ƚ. Ʉɿɪɿɱɟɧɤɨ 1 , Ɉ.ȼ. Ʉɨɜɚɥɟɧɤɨ 1 , Ɇ.Ƚ. Ʉɨɦɩɚɧɿɽɰ 2 , ȼ.M. Ʌɟɨɧɨɜ 1 1 ɏɚɪɤɿɜɫɶɤɢɣ ɧɚɰɿɨɧɚɥɶɧɢɣ ɭɧɿɜɟɪɫɢɬɟɬ ɿɦ. ȼ.ɇ. Ʉɚɪɚɡɿɧɚ 61108, ɦ. ɏɚɪɤɿɜ, ɩɪ. Ʉɭɪɱɚɬɨɜɚ, 31 2 Goethe-Universität Frankfurt Senckenberganlage 31, 60325, Frankfurt am Main ɉɪɟɞɫɬɚɜɥɟɧɿ ɪɟɡɭɥɶɬɚɬɢ ɚɧɚɥɿɡɭ ɤɨɧɰɟɧɬɪɚɰɿɣɧɢɯ ɡɚɥɟɠɧɨɫɬɟɣ ɟɥɟɦɟɧɬɧɨɝɨ ɫɤɥɚɞɭ ɜɤɥɸɱɟɧɶ ɿ ɦɚɬɪɢɰɿ ɞɥɹ ɜɢɡɧɚɱɟɧɧɹ ɩɨɪɿɜɧɹɥɶɧɢɯ ɡɧɚɱɟɧɶ ɤɨɟɮɿɰɿɽɧɬɿɜ ɞɢɮɭɡɿʀ ɜ ɞɿɫɩɟɪɫɧɨɡɦɿɰɧɟɧɨɦɭ Į- ɡɚɥɿɡɿ. ɑɢɫɟɥɶɧɢɦ ɦɨɞɟɥɸɜɚɧɧɹɦ ɡɚ ɞɜɨɜɢɦɿɪɧɢɦɢ ɞɚɧɢɦɢ ɨɬɪɢɦɚɧɚ ɬɪɢɜɢɦɿɪɧɚ ɮɨɪɦɚ ɨɤɫɢɞɧɢɯ ɜɤɥɸɱɟɧɶ. ȼɢɡɧɚɱɟɧɨ ɡɧɚɱɟɧɧɹ ɞɥɹ D Al , D Y ɜ ɡɚɥɿɡɿ ɿɡ ɡɚɥɭɱɟɧɧɹɦ ɥɿɬɟɪɚɬɭɪɧɢɯ ɞɚɧɢɯ ɩɨ ɞɢɮɭɡɿʀ ɡɚɥɿɡɚ ɜ ɪɿɡɧɢɯ ɬɟɦɩɟɪɚɬɭɪɧɢɯ ɞɿɚɩɚɡɨɧɚɯ. Ɂɚ ɨɬɪɢɦɚɧɢɦɢ ɞɚɧɢɦɢ, ɤɨɟɮɿɰɿɽɧɬɢ ɞɢɮɭɡɿʀ ɟɥɟɦɟɧɬɿɜ ɜɤɥɸɱɟɧɧɹ (Y, Al, Ti) ɭ ɜɢɩɚɞɤɭ ɦɨɞɟɥɶɧɨʀ ɫɢɫɬɟɦɢ ɜɢɳɟ, ɧɿɠ ɤɨɟɮɿɰɿɽɧɬ ɫɚɦɨɞɢɮɭɡɿʀ ɡɚɥɿɡɚ. ɄɅɘɑɈȼȱ ɋɅɈȼȺ: ɡɚɥɿɡɨ, ɧɚɧɨɱɚɫɬɢɧɤɢ, ɨɤɫɢɞɢ, ɿɬɪɿɣ, ɫɬɪɭɤɬɭɪɚ, ɮɚɡɨɜɢɣ ɫɤɥɚɞ, ɞɢɮɭɡɿɹ. ȼ ɫɨɜɪɟɦɟɧɧɨɣ ɚɬɨɦɧɨɣ ɩɪɨɦɵɲɥɟɧɧɨɫɬɢ ɧɚ ɨɫɧɨɜɟ ɦɧɨɝɨɥɟɬɧɢɯ ɢɫɫɥɟɞɨɜɚɧɢɣ ɞɢɫɩɟɪɫɢɨɧɧɨ - ɭɩɪɨɱɧɟɧɧɵɯ ɫɢɫɬɟɦ, ɜ ɱɚɫɬɧɨɫɬɢ ɫɩɥɚɜɨɜ ɧɚ ɨɫɧɨɜɟ ɠɟɥɟɡɚ, ɪɚɡɧɨɨɛɪɚɡɧɵɯ ɦɚɬɟɪɢɚɥɨɜ ɫ ɞɨɛɚɜɤɚɦɢ ɞɢɫɩɟɪɫɧɵɯ ɦɢɤɪɨɫɬɪɭɤɬɭɪ, ɲɢɪɨɤɨ ɩɪɢɦɟɧɹɸɬɫɹ ɧɚɧɨɬɟɯɧɨɥɨɝɢɢ ɢ ɧɚɧɨɦɚɬɟɪɢɚɥɵ[1, 2]. ȼɚɠɧɨɣ ɩɪɨɛɥɟɦɨɣ ɹɜɥɹɟɬɫɹ ɩɨɜɵɲɟɧɢɟ ɪɚɞɢɚɰɢɨɧɧɨɣ ɫɬɨɣɤɨɫɬɢ ɨɛɨɥɨɱɟɤ ɌȼɗɅɨɜ. Ⱦɥɹ ɪɟɲɟɧɢɹ ɷɬɨɣ ɩɪɨɛɥɟɦɵ ɫɨɡɞɚɧ ɧɨɜɵɣ ɤɥɚɫɫ ɤɨɧɫɬɪɭɤɰɢɨɧɧɵɯ ɦɚɬɟɪɢɚɥɨɜ ɞɥɹ ɷɥɟɦɟɧɬɨɜ ɚɤɬɢɜɧɨɣ ɡɨɧɵ ɹɞɟɪɧɵɯ ɪɟɚɤɬɨɪɨɜ – ɮɟɪɪɢɬɨ - ɦɚɪɬɟɧɫɢɬɧɵɟ ɪɚɞɢɚɰɢɨɧɧɨ - ɫɬɨɣɤɢɟ ɫɬɚɥɢ, ɭɩɪɨɱɧɟɧɧɵɟ ɜɵɫɨɤɨɞɢɫɩɟɪɫɧɵɦɢ ɧɚɧɨɦɟɬɪɢɱɟɫɤɢɦɢ ɱɚɫɬɢɰɚɦɢ ɨɤɫɢɞɨɜ ȾɍɈ ɫɬɚɥɢ (ɞɢɫɩɟɪɫɧɨ ɭɩɪɨɱɧɟɧɧɵɟ ɨɤɫɢɞɚɦɢ ɫɬɚɥɢ). Ɍɟɯɧɨɥɨɝɢɢ ɩɪɨɢɡɜɨɞɫɬɜɚ ȾɍɈ ɫɬɚɥɟɣ ɪɚɡɧɨɨɛɪɚɡɧɵ ɢ ɜɤɥɸɱɚɸɬ ɜ ɫɟɛɹ ɪɚɡɥɢɱɧɵɟ ɫɬɚɞɢɢ ɢɯ ɩɨɥɭɱɟɧɢɹ ɞɥɹ ɫɨɡɞɚɧɢɹ ɜ ɦɚɬɪɢɰɟ ɫɬɚɥɢ ɜɵɞɟɥɟɧɢɣ ɧɚɧɨɦɟɬɪɢɱɟɫɤɢɯ ɨɤɫɢɞɨɜ [3-7]. ȼ ɷɬɢɯ ɪɚɛɨɬɚɯ ɩɨɤɚɡɚɧɨ, ɱɬɨ ɩɪɨɰɟɫɫɵ ɮɨɪɦɢɪɨɜɚɧɢɹ ɧɚɧɨɫɬɪɭɤɬɭɪɢɪɨɜɚɧɧɵɯ ȾɍɈ ɫɬɚɥɟɣ ɩɨɡɜɨɥɹɸɬ ɞɨɫɬɢɝɚɬɶ ɜɵɫɨɤɨɝɨ ɨɫɬɚɬɨɱɧɨɝɨ ɭɞɥɢɧɟɧɢɹ, ɭɜɟɥɢɱɟɧɢɹ ɠɚɪɨɩɪɨɱɧɨɫɬɢ ɩɨ ɫɪɚɜɧɟɧɢɸ ɫ ɩɪɢɦɟɧɹɟɦɨɣ ɫɬɚɥɶɸ. ȼɚɠɧɵɦ ɜɨɩɪɨɫɨɦ ɹɜɥɹɟɬɫɹ ɫɬɪɭɤɬɭɪɚ ɩɟɪɟɯɨɞɧɨɝɨ ɫɥɨɹ ɧɚ ɝɪɚɧɢɰɟ «ɜɤɥɸɱɟɧɢɟ-ɦɚɬɪɢɰɚ». ɐɟɥɶɸ ɪɚɛɨɬɵ ɹɜɥɹɥɫɹ ɚɧɚɥɢɡ ɜɡɚɢɦɨɞɟɣɫɬɜɢɹ ɧɟɦɟɬɚɥɥɢɱɟɫɤɢɯ ɜɤɥɸɱɟɧɢɣ (ɨɤɫɢɞɨɜ) ɢ ɩɪɨɰɟɫɫɨɜ ɞɢɮɮɭɡɢɢ ɷɥɟɦɟɧɬɨɜ ɜ ɩɪɢɩɨɜɟɪɯɧɨɫɬɧɨɦ ɫɥɨɟ ɩɪɢ ɮɨɪɦɢɪɨɜɚɧɢɢ ɜɤɥɸɱɟɧɢɣ ɦɨɞɟɥɶɧɵɯ ɫɢɫɬɟɦ ɞɢɫɩɟɪɫɧɵɯ ɨɤɫɢɞɧɵɯ ɱɚɫɬɢɰ ɜ ɦɚɬɪɢɰɟ ɚɥɶɮɚ-ɠɟɥɟɡɚ. 114 © Kirichenko V.G., Kovalenko O.V., Kompaniiets M.G., Leonov V.N., 2012 «Journal of Kharkiv University», ¹1001, 2012 V.G. Kirichenko... physical series «Nuclei, Particles, Fields», issue 2 /54/ Diffusion in the surface...
Transcript of V.G. Kirichenko physical series , issue 2 /54/ Diffusion...
548.1:533.9
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61108, . , . , 31 2Goethe-Universität Frankfurt
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Received 20 March 2012, accepted 14 May 2012
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DIFFUSION IN THE SURFACE LAYERS OF OXIDE INCLUSIONS IN DISPERSE STRENGTHENING -Fe V.G. Kirichenko1, O.V. Kovalenko1, M.G. Kompaniiets2, V.N. Leonov1
1Kharkov Karazin National University 31 Kurchatov St., Kharkov, 61108
2Goethe-Universität Frankfurt
Senckenberganlage 31, 60325, Frankfurt am Main The results of the concentration dependence analyzing of the inclusions elemental composition and the matrix to determine the comparative values of diffusion coefficients in disperse strengthening -iron. Numerical simulation of two-dimensional data is allowed to obtain the three-dimensional forms of oxide inclusions. The values for DAl, DY in the iron, involving published data on the diffusion of iron in different temperature ranges. According to our data, the diffusion coefficients of the elements included (Y, Al, Ti) in the case of the model system is higher than the self-diffusion coefficient of iron. KEY WORDS: iron, nanoparticles, oxide, yttrium, structure, phase composition, diffusion.
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© Kirichenko V.G., Kovalenko O.V., Kompaniiets M.G., Leonov V.N., 2012
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117physical series «Nuclei, Particles, Fields», issue 2 /54/ Diffusion in the surface...
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