Surface Morphology and Crystallographic Orientation of Electrodeposited Fe Film

Inoue, Koichiro; Nakata, Takeshi; Watanabe, Tohru

doi:10.2320/jinstmet1952.65.4_229

Cited by 7 publications

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“…At the beginning of the electroplating process, the atoms nucleate on the sites where the electric current density is higher, since the oxidized surfaces of the CFs are not smooth, small spots appear on the surfaces of the CFs. Then the atoms diffuse around and coatings are gradually formed [12]. During this process, two main factors are determined by electroplating temperature, the so-called ion transport speed in the bath and the atomic diffusion speed in the coating.…”

Section: Resultsmentioning

confidence: 99%

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

Wang

Wan

2011

Journal of Alloys and Compounds

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Section: Resultsmentioning

confidence: 99%

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

Wang

Wan

2011

Journal of Alloys and Compounds

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“…4) did not show diffraction peaks of the Co crystal, and the reason for this is undetermined. In our previous studies, the phase structure of Ag-Co alloy, 12) Au-Ni alloy 13) and Au-Fe alloy 14) plated films, the XRD peaks of the element with a higher melting point displayed broadening, indicating a fine crystalline form near an amorphous state. Therefore, it is considered that the Co crystal of Au-Co alloy films in this study is also composed of fine crystals that are almost amorphous.…”

Section: Methodsmentioning

confidence: 99%

The Relationship between Microstructure and the Thermal Equilibrium Diagram of Au-Co Alloy Electrodeposit

et al. 2006

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An Au-Co alloy with an extensive composition range was electrodeposited from a gold sulfite and cobalt sulfate mixture. The Au-Co alloy electrodeposits were analyzed by XRD and TEM and the relationship between the phase and thermal equilibrium diagrams was investigated. The Au-Co alloy electrodeposits formed a solid solution over an extensive composition range. It was also revealed that the composition of the electrodeposited Au-Co alloy was equal to that of the quenched phase at a high temperature, about 950 C.

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“…, Cd 11) , Co 12) , Cr 13) , Cu 14) , Fe 15) , Ni 16,17) , Pt 18) , Ru 19) , Sn 20,21) , Zn 22) )，そして 26 種類の二元合金(Ag Co 23,24) , Al Mn 25 27) , Ag Cu 28) , Au Ni 29) , Au Pd 30,31) , Au Sn 32) , Co Cu 33,34) , Co Fe 35) , Co Ni 36) , Co S 37) , Co W 38) , Cu Ni 39) , Cu Pb 40) , Cu Sn 41) , Fe Mo 42) , Co Mo 42) , Ni Mo 42) , Fe Ni 43,44) , Fe W 45) , Fe Zn 46) , In Sn 47) , Ni B 48 50) , Ni P 51 53) , Ni S 54) , Ni Sn 55 58) , Ni W 59 …”

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Structure Control Theory of Plated Film —Part of Surface Morphology—

Watanabe

2002

J. Japan Inst. Metals and Materials

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The author has investigated the relationship between the structure of the plated film and plating conditions for 12 pure metals and 28 binary alloys. The structure of the plated film can be discussed based on metallurgical structure, surface morphology, crystal size, crystallographic orientation, adhesion between the plated film and substrate, retained stress, and anomalous structure. The control mechanisms of these features can be independently explained, since there is an independent control theory for each feature. This paper explains the unique control theory for surface morphology of plated films proposed by the author. In discussing surface morphology, two cases must be considered separately: pure metals and alloys. Discussions of pure metal films can be further subdivided into those with low melting points and those with high melting points. Generally, the crystals of plated alloy films are small, and the surface morphology depends on the crystallographic structure of the alloy film. The roughness of the plated film increases with film thickness and is hardly influenced by current density. When the current density is low, the surface roughness dominates. When current density is high, the surface is relatively smooth for both pure metal films and alloy films. It is not due to over voltage. The type of anion in the plating bath influences the nature of the roughness.

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Surface Morphology and Crystallographic Orientation of Electrodeposited Fe Film

Cited by 7 publications

References 0 publications

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

The Relationship between Microstructure and the Thermal Equilibrium Diagram of Au-Co Alloy Electrodeposit

Structure Control Theory of Plated Film —Part of Surface Morphology—

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Surface Morphology and Crystallographic Orientation of Electrodeposited Fe Film

Cited by 7 publications

References 0 publications

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

Facile synthesis and electromagnetic wave absorption properties of magnetic carbon fiber coated with Fe–Co alloy by electroplating

The Relationship between Microstructure and the Thermal Equilibrium Diagram of Au-Co Alloy Electrodeposit

Structure Control Theory of Plated Film &mdash;Part of Surface Morphology&mdash;

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Structure Control Theory of Plated Film —Part of Surface Morphology—