Elaboración de recubrimientos base cobre sobre un sustrato de porcelana mediante proyección térmica con llama oxiacetilénica

Soto-Martínez, Daniela; Parra-Velásquez, Carolina; López-Gómez, María E.; Vásquez-Jiménez, Carlos F.; Vargas-Galvis, Fabio

doi:10.22430/22565337.190

Cited by 3 publications

(1 citation statement)

References 6 publications

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“…When hitting the substrate, the drops with greater speed tend to deform and spread over the surface. The residual stresses produced during the fabrication of the coatings are a consequence of the high thermal and kinetic energy involved in the process and also of the cooling process and the impact of the particles with the substrate and their subsequent stacking to form the coating [27,28]. Individual particles are able to freely decrease their temperature from the molten state to the temperature of the environment [29] [30].…”

Section: Resultsmentioning

confidence: 99%

Influence of Gas Pressure on the Mechanical and Tribological Properties of Cu-Al Coatings Deposited via Thermal Spray

2019

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We report the results of the influence of the acetylene and oxygen gas pressure on the wear resistance of aluminum–bronze coatings deposited on naval brass substrate by means of the thermal (flame) deposition process. The coatings were characterized by means of scanning electronic microscopy (SEM), energy-dispersive X-ray spectrometry (EDS), X-ray diffraction (XRD), and X-ray fluorescence (XRF). The adhesion was determined with cross-hatching tests, and the mechanical response was assessed by measuring the nanohardness and by three-body and ball-on-disk abrasive wear tests. The results indicate that changes in the pressure and flow of the gas affect the morphology and the mechanical properties of the coatings, and these effects have consequences for the wear behavior of the coatings. Before the projection of the coatings, numerical simulations were carried out using Jets & Poudres software, where the collision speed of the particles was identified as the most significant factor that influences the mechanical properties and the performance of the coating. The gas pressure modified the hardness and the porosity level, which allowed improving the wear resistance.

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Section: Resultsmentioning

confidence: 99%

Influence of Gas Pressure on the Mechanical and Tribological Properties of Cu-Al Coatings Deposited via Thermal Spray

2019

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Thermal properties of zirconia-alumina coatings obtained by thermal spray flame

Ferrer

Vargas

Moreno

2019

J. Phys.: Conf. Ser.

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Thermal spraying makes possible to manufacture coatings of a large number of materials, including those with a high melting point, such as ceramics. There are different ways of manufacturing these coatings, two of them are air-plasma spraying and flame spray. In this study the zirconia and alumina coatings were manufactured by flame spray, their morphology was studied and compared with their thermal conductivity and diffusivity properties. The morphology was studied from scanning electron microscope micrographs and the thermal properties measured by the laser flash method. It was discovered that the type of flame used to obtain the coatings influences the percentage porosity and thickness and that this in turn, affects its thermal properties.

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Mejoramiento de la adherencia en recubrimientos de Hidroxiapatita elaborados mediante proyección térmica oxiacetilénica, a partir de resultados de simulación numérica

Copete¹,

Vargas²,

López³

et al. 2017

DYNA

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Los resultados de la simulación numérica realizada con el software Jets et Poudres fueron utilizados para depositar recubrimientos de hidroxiapatita mediante proyección térmica oxiacetilénica, con el fin de aumentar su cohesión y adhesión sobre sustratos de Ti6Al4V. Se determinó el efecto de una llama neutra, una oxidante y una súper-oxidante, así como de la distancia de proyección (7, 9,5 y 12 cm) entre el sustrato y la antorcha, sobre el número adimensional de K-Sommerfeld (K). Dicho número adimensional es influenciado por la distancia de proyección y no por las llamas evaluadas. Para recubrimientos fabricados a una distancia de 12 cm el número de Sommerfeld varía entre 34 y 37, lo que les confiere una estructura más homogénea que la de aquellos depositados a 7 y 9,5 cm en los que existe un alto contenido de partículas parcialmente fundidas (K=0), o con salpicaduras (K>75), que reducen la adhesión de los recubrimientos.

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Elaboración de recubrimientos base cobre sobre un sustrato de porcelana mediante proyección térmica con llama oxiacetilénica

Cited by 3 publications

References 6 publications

Influence of Gas Pressure on the Mechanical and Tribological Properties of Cu-Al Coatings Deposited via Thermal Spray

Influence of Gas Pressure on the Mechanical and Tribological Properties of Cu-Al Coatings Deposited via Thermal Spray

Thermal properties of zirconia-alumina coatings obtained by thermal spray flame

Mejoramiento de la adherencia en recubrimientos de Hidroxiapatita elaborados mediante proyección térmica oxiacetilénica, a partir de resultados de simulación numérica

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