Topographic characterization of glazed surfaces

Fröberg, Linda; Hupa, Leena

doi:10.1016/j.apsusc.2007.07.173

Cited by 16 publications

(6 citation statements)

References 10 publications

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“…SEM was used to characterize the morphological parameters of the synthesized bioceramic in nano to micron scale [34]. The surface characteristics such as surface porosity and morphology of the implants help in regulation of cell proliferation, cell attachment and protein adsorption [35].…”

Section: Scanning Electron Microscopymentioning

confidence: 99%

Bioactivity studies of calcium magnesium silicate prepared from eggshell waste by sol–gel combustion synthesis

Choudhary

Koppala

Swamiappan

2015

Journal of Asian Ceramic Societies

148

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Section: Scanning Electron Microscopymentioning

confidence: 99%

Bioactivity studies of calcium magnesium silicate prepared from eggshell waste by sol–gel combustion synthesis

Choudhary

Koppala

Swamiappan

2015

Journal of Asian Ceramic Societies

148

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“…AFM was used to characterize the topological parameters of the synthesized bioceramic [28]. The surface characteristics such as surface roughness and morphology of the implants help in regulation of cell proliferation, cell attachment and protein adsorption [29].…”

Section: Afmmentioning

confidence: 99%

In vitro bioactivity studies of larnite and larnite/chitin composites prepared from biowaste for biomedical applications

et al. 2016

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Larnite (Ca 2 SiO 4) was synthesized by the sol-gel combustion process by using raw eggshell powder as a calcium source and urea as a fuel. The main focus of this work is to convert biowaste into a biomedical material at a low-processing temperature. X-ray diffraction (XRD) pattern confirms the phase purity of the larnite and Fourier transform infrared (FTIR) spectra confirms the presence of characteristic functional groups of larnite. Scanning electron microscopy (SEM) image shows agglomerated particles with cauliflower-like morphology and energy dispersive X-ray spectroscopy (EDX) confirms the presence of the stoichiometric ratio of required elements. Atomic force microscope (AFM) images reveal the presence of pores on the surface of spherical particles. Larnite/chitin composites were fabricated into scaffold with different ratios of bioceramic to biopolymer (70:30, 80:20) to investigate the influence of the polymer content on the apatite formation ability in simulated body fluid (SBF) medium. XRD pattern and FTIR spectra of the scaffold immersed in SBF shows apatite deposition within 5 days. The deposition of hydroxyapatite (HAP) on the scaffold surface increases with the increase in polymer content of the composite.

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“…Es ampliamente usada en aplicaciones donde se requiera la formación de películas uniformes, es decir, con espesores homogéneos y de baja rugosidad [19]. Por esta razón, se emplea en la fabricación de microcomponentes electrónicos y ha resultado de interés para la obtención de altos brillos en los esmaltes de las baldosas dado que al reducir la rugosidad de la superficie aumenta el brillo de la misma [2].…”

Section: Rotacional (Spin)unclassified

“…El esmalte cerámico es la capa de naturaleza vítrea que se deposita sobre la superficie de diferentes sustratos, generalmente también de naturaleza cerámica, para proporcionar atributos estéticos y proteger la superficie gracias a sus propiedades físicas. Un campo amplio de aplicación de los esmaltes es en las baldosas cerámicas, usadas para pavimentos y revestimientos en el sector de la construcción [1,2]. En tal caso, en las baldosas se pueden reconocer por tres capas claramente definidas, ver Figura 1, que son: i) la pasta, que es la encargada de servir de soporte, es la que tiene el mayor espesor y cuerpo en la baldosa, ii) el engobe que es un revoque de arcilla que posibilita la unión entre el esmalte y la pasta, aproximadamente 100 a 200 µm, iii) el esmalte, el cual es una capa de muy baja porosidad, de aproximadamente 75 a 300 µm con las características mencionadas [3].…”

Section: Introductionunclassified

Deposición de capas funcionales sobre esmaltes cerámicos mediante la técnica sol-gel (revisión)

Betancourt

Domínguez-Ortiz

Mosquera-Palacio

et al. 2018

ings

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Recibido : 16-11-2018, aprobado tras revisión: 13-12-2018 Forma sugerida de citación: Betancourt-Parra, S.; Domínguez-Ortiz, M. A.; Mosquera-Palacio, D. M.; Herrera-Guerra, J.; Ríos-Rendón, C. M. y Villa, C. E. (2019). «Deposición de capas funcionales sobre esmaltes cerámicos mediante la técnica sol-gel (revisión)». Ingenius. N. • 21, (enero-junio). pp. 9-20. doi: https://doi.org/10.17163/ings.n21.2019.01. Resumen AbstractPalabras clave: esmaltes cerámicos, esmaltes funcionales, sol-gel, cerámica.

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Topographic characterization of glazed surfaces

Cited by 16 publications

References 10 publications

Bioactivity studies of calcium magnesium silicate prepared from eggshell waste by sol–gel combustion synthesis

Bioactivity studies of calcium magnesium silicate prepared from eggshell waste by sol–gel combustion synthesis

In vitro bioactivity studies of larnite and larnite/chitin composites prepared from biowaste for biomedical applications

Deposición de capas funcionales sobre esmaltes cerámicos mediante la técnica sol-gel (revisión)

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