Kyung Won Kang scite author profile

Kyung Won Kang

5Publications

24Citation Statements Received

42Citation Statements Given

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110

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National University of La Plata

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Uncertainty studies of topographical measurements on steel surface corrosion by 3D scanning electron microscopy

Kang

Pereda

Canafoglia

et al. 2012

Micron

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Pitting corrosion is a damage mechanism quite serious and dangerous in both carbon steel boiler tubes for power plants which are vital to most industries and stainless steels for orthopedic human implants whose demand, due to the increase of life expectation and rate of traffic accidents, has sharply increased. Reliable methods to characterize this kind of damage are becoming increasingly necessary, when trying to evaluate the advance of damage and to establish the best procedures for component inspection in order to determine remaining lives and failure mitigation. A study about the uncertainties on the topographies of corrosion pits from 3D SEM images, obtained at low magnifications (where errors are greater) and different stage tilt angles were carried out using an in-house software previously developed. Additionally, measurements of pit depths on biomaterial surfaces, subjected to two different surface treatments on stainless steels, were carried out. The different depth distributions observed were in agreement with electrochemical measurements.

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Impact of Surface Treatment on the Corrosion Resistance of ASTM F138-F139 Stainless Steel for Biomedical Applications

Pereda

Kang

Bonetto³

et al. 2012

Procedia Materials Science

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Thickness determination of anodic titanium oxide films by electron probe microanalysis

Kang

Limandri

Castellano

et al. 2017

Materials Characterization

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Blasting and Passivation Treatments for ASTM F139 Stainless Steel for Biomedical Applications: Effects on Surface Roughness, Hardening, and Localized Corrosion

Barboza

Kang

Bonetto

et al. 2014

J. of Materi Eng and Perform

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Efectos de tratamientos térmicos post-alcalinos sobre las propiedades superficiales de titanio para implantes dentales con diferentes recubrimientos

et al. 2018

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RESUMEN El titanio es ampliamente utilizado como implante dental dado que es bioinerte y osteointegrable. Sin embargo, dado que este material no puede inducir el crecimiento de hueso desde su superficie, es usual que se le realicen distintos tratamientos superficiales para desarrollar recubrimientos bioactivos. El tratamiento alcalino tiene por objetivo formar un gel de titanato de sodio amorfo, el cual se puede estabilizar, por medio de un tratamiento térmico posterior. Durante este último, el hidrogel se deshidrata y se densifica para formar una capa de titanato de sodio estable y parcialmente cristalizado. En el presente trabajo se analizaron los efectos producidos por diferentes tratamientos térmicos posteriores al alcalino, sobre superficies de titanio cp con tratamiento superficial de blastinizado y APQ (anodizado por plasma químico). Para cada caso se caracterizó la superficie con el fin de optimizar la condición de aplicación. Las temperaturas de los tratamientos térmicos fueron 400, 600 y 800 ºC, dado que en este rango el titanato varía su proporción de fase amorfa y cristalina y por ende sus propiedades. La evaluación de los resultados se realizó mediante ensayos de adhesión Rockwell C, medición del ángulo de contacto inicial por goniometría, difracción de rayos x, SBF y microscopia electrónica de barrido. Caracterizadas las probetas post tratamiento térmico se pudo observar que, las muestras tratadas a 800 ºC presentaron una estructura superficial cristalina, mala adhesión y no indujeron crecimiento de apatita sobre su superficie. No obstante presentaron una superficie hidrofilica. Por otro lado, las muestras tratadas a 400 y 600 ºC presentaron superficialmente una fase parcialmente cristalizada, con buena adherencia y buena hidrofilicidad. Mediante SEM-EDS, se observó sobre sus superficies la formación de una capa de apatita homogénea.

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Kyung Won Kang

Uncertainty studies of topographical measurements on steel surface corrosion by 3D scanning electron microscopy

Impact of Surface Treatment on the Corrosion Resistance of ASTM F138-F139 Stainless Steel for Biomedical Applications

Thickness determination of anodic titanium oxide films by electron probe microanalysis

Blasting and Passivation Treatments for ASTM F139 Stainless Steel for Biomedical Applications: Effects on Surface Roughness, Hardening, and Localized Corrosion

Efectos de tratamientos térmicos post-alcalinos sobre las propiedades superficiales de titanio para implantes dentales con diferentes recubrimientos

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