Figs. 48 - 84

Chapter Concepts

Substances / Molecular Formulas	(Al-Y)₂O₃ / Cr³⁺; (Al-Y)₂O₃ / Fe³⁺; (Ni,In); (Pb,In); (Pt,Cr); Ag-S / S; Ag-Sn / Hg; Al-Zn / Zn; AlSi (unspec.); Au-Ni; Au-Ni (Gold - Nickel); Au-Ta / Au; AuNi (unspec.); BFe (unspec.); Co-W / W; CrFe (unspec.); Cu-Ag / Ag; Cu-Cd / Cd; Cu-Cr / Ag; Cu-Te / Ag; Cu-Ti / Ag; Cu-Zn / Zn; Cu-Zr / Ag; Fe-Al / Fe; Fe-B / Cu; Fe-B / Fe; Fe-B-Fe; Fe-C / Fe; Fe-Co-W-Cr-V-C / W; Fe-Cr / Cr; Fe-Cr / Fe; Fe-Cr / H; Fe-Cr-C / Fe; Fe-Cr-Cr; Fe-Cr-Ni / Cr; Fe-Cr-Ni / Fe; Fe-Cr-Ni / Ni; Fe-Cr-Ni-C / Cr; Fe-Cr-Ni-C / Fe; Fe-Cr-Ni-C / Ni; Fe-Cr-Ni-C / Sn; Fe-Cr-Ni-C-Si / Cr; Fe-Cr-Ni-C-Si / Fe; Fe-Cr-Ni-C-Si / Ni; Fe-Cr-Ni-Mn-C / H; Fe-Cr-Ni-Mo-C / Fe; Fe-Cr-Ni-Mo-Mn-C / H; Fe-Cr-Ni-Mo-Mn-Si-C / Cr; Fe-Cr-Ni-Mo-Mn-Si-C / Fe; Fe-Cu / Cu; Fe-Mn-Sn; Fe-Mo / Cu; Fe-N / Fe; Fe-Ni / Ni; Fe-Ni-Cr / C; Fe-Ni-Cr / Cr; Fe-Ni-Cr / Fe; Fe-Ni-Cr / Mn; Fe-Ni-Cr / Ni; Fe-P / Fe; Fe-P / P; Fe-P-Cr / P; Fe-P-Mn / P; Fe-P-Mo / P; Fe-P-Ni / P; Fe-P-Si / P; Fe-S / Fe; Fe-Si / Fe; Fe-Si / S; Fe-W-Cr-V-C / W; Fe₂O₃-MnO-ZnO / Ca²⁺; Gold - Nickel; H₂O / Cs⁺; H₂O / Na⁺; InSb / Sn; KCl / Ag⁺; KCl / Ca²⁺; KCl / Tl⁺; KI / Tl⁺; Lead - Tin; MgO / Co²⁺; MgO / Cr³⁺; MgO / Ni²⁺; Mo / Cr; Mo / Cs; Mo / O; Mo / W; Mo-C; Mo-Fe; Mo-O; Mo-W; Molybdenum - Oxygen; Molybdenum - Tungsten; NaCl / K⁺; NaCl / Na⁺; NaCl / Ni²⁺; Nb / Cs; Nb / Sn; Nb / W; Nb-Sn; Nb-W; Nd-Ni; Nd-Ni (Neodymium - Nickel); NdNi (unspec.); Neodymium - Nickel; Ni / Ce; Ni / Fe; Ni / In; Ni / Sn; Ni,Fe; Ni-Ag; Ni-Au; Ni-B / Sn; Ni-Co; Ni-Co / Fe; Ni-Co-Cr-W-Al-Nb-C / Ni; Ni-Cr-Fe / Cr; Ni-Cr-Ti-Al / Ni; Ni-Cr-Ti-Al / Sn; Ni-Fe; Ni-In; Ni-Sn; Ni-Sn (Nickel - Tin); NiO / Ce⁴⁺; NiO / Co²⁺; NiO / Cr³⁺; NiSn (unspec.); Nickel - Gold; Nickel - Neodymium; Nickel - Tin; Niobium - Tin; Niobium - Tungsten; Oxygen - Molybdenum; Pb / In; Pb / Sn; Pb-In; Pb-Sn; Pt / Cr; Pt-Au; Pt-Cr; Si / Al; Si / As; Si : As; Si/Al; Si/As; Si/Sb; Si:P; Sn / Ag; Sn-Tl; Sn-Tl (Tin - Thallium); SnTl (unspec.); Ta / Cs; TaSi₂ / P; ThO₂ / Pa⁴⁺; ThO₂ / U⁴⁺; Thallium - Tin; Tin - Lead; Tin - Nickel; Tin - Niobium; Tin - Thallium; Tungsten - Molybdenum; Tungsten - Niobium; UC_0.95 / Mo⁶⁺; UC_0.95 / Nb⁵⁺; UC_0.95 / Zr⁴⁺; V / Cs; W / Co; W / Mo; W / Th; W-Cs; W-Mo; W/Fe; W/Mo; Y / C; Zr / C; Zr-Cr
Element Systems	Ag-Cl-K; Ag-Cr-Cu; Ag-Cu; Ag-Cu-Te; Ag-Cu-Ti; Ag-Cu-Zr; Ag-Hg-Sn; Ag-Ni; Ag-S; Ag-Sn; Al-C-Co-Cr-Nb-Ni-W; Al-Cr-Ni-Sn-Ti; Al-Cr-Ni-Ti; Al-Cr-O-Y; Al-Fe; Al-Fe-O-Y; Al-Si; Al-Zn; As-Si; Au-Ni; Au-Pt; Au-Ta; B-Cu-Fe; B-Fe; B-Ni-Sn; C-Co-Cr-Fe-V-W; C-Cr-Fe; C-Cr-Fe-H-Mn-Mo-Ni; C-Cr-Fe-H-Mn-Ni; C-Cr-Fe-Mn-Mo-Ni-Si; C-Cr-Fe-Mo-Ni; C-Cr-Fe-Ni; C-Cr-Fe-Ni-Si; C-Cr-Fe-Ni-Sn; C-Cr-Fe-V-W; C-Fe; C-Mo; C-Mo-U; C-Nb-U; C-U-Zr; C-Y; C-Zr; Ca-Cl-K; Ca-Fe-Mn-O-Zn; Cd-Cu; Ce-Ni; Ce-Ni-O; Cl-K-Na; Cl-K-Tl; Cl-Na; Cl-Na-Ni; Co-Fe-Ni; Co-Mg-O; Co-Ni; Co-Ni-O; Co-W; Cr-Fe; Cr-Fe-H; Cr-Fe-Mn-Ni; Cr-Fe-Ni; Cr-Fe-P; Cr-Mg-O; Cr-Mo; Cr-Ni-O; Cr-Pt; Cr-Zr; Cs-H-O; Cs-Mo; Cs-Nb; Cs-Ta; Cs-V; Cs-W; Cu-Fe; Cu-Fe-Mo; Cu-Zn; Fe-Mn-P; Fe-Mn-Sn; Fe-Mo; Fe-Mo-P; Fe-N; Fe-Ni; Fe-Ni-P; Fe-P; Fe-P-Si; Fe-S; Fe-S-Si; Fe-Si; Fe-W; H-Na-O; I-K-Tl; In-Ni; In-Pb; In-Sb-Sn; Mg-Ni-O; Mo-O; Mo-W; Nb-Sn; Nb-W; Nd-Ni; Ni-Sn; O-Pa-Th; O-Th-U; P-Si; P-Si-Ta; Pb-Sn; Sb-Si; Sn-Tl; Th-W
Properties	boundary diffusion; diffusion
Substrates	alloy; metal; solid metal

Source

Title	Figs. 48 - 84
In	Figures for 12
Author	I. Kaur, W. Gust
Part of	Landolt-Börnstein - Group III Condensed Matter
	Numerical Data and Functional Relationships in Science and Technology
Volume	26: Diffusion in Solid Metals and Alloys
Edited by	H. Mehrer
Chapter-DOI	10.1007/10390457_131
Book-DOI	10.1007/b37801 (Volume in Bookshelf)

Cite as

RIS-Export	Kaur, I., Gust, W.: Figs. 48 - 84. Mehrer, H. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10390457_131

Abstract

	Figs. 48 - 84 in 'Figures for 12', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 26: Diffusion in Solid Metals and Alloys'.
	This chapter contains illustrations for grain boundary diffusivity of impurity diffusion of ions. The grain boundary diffusivity illustrations of impurity elements in metals, pure and doped ice versus reciprocal temperature are shown. The ions include cesium ion, sodium ion, cobalt ion, nickel ion, chromium ion, iron ion, molybdenum ion, niobium ion, zirconium ion, and calcium ion. The metals include molybdenum, nickel, lead, silver, tin, thallium, platinum, chromium, silicon, phosphorus, carbon, tungsten, cesium, sulphur, iron, zinc, gold, hydrogen, manganese.

Figs. 48 - 84 in 'Figures for 12', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 26: Diffusion in Solid Metals and Alloys'.

This chapter contains illustrations for grain boundary diffusivity of impurity diffusion of ions. The grain boundary diffusivity illustrations of impurity elements in metals, pure and doped ice versus reciprocal temperature are shown. The ions include cesium ion, sodium ion, cobalt ion, nickel ion, chromium ion, iron ion, molybdenum ion, niobium ion, zirconium ion, and calcium ion. The metals include molybdenum, nickel, lead, silver, tin, thallium, platinum, chromium, silicon, phosphorus, carbon, tungsten, cesium, sulphur, iron, zinc, gold, hydrogen, manganese.

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