J.L. Mı́guez scite author profile

Physical vapour deposition (PVD) is a well-known technology that is widely used for the deposition of thin films regarding many demands, namely tribological behaviour improvement, optical enhancement, visual/esthetic upgrading, and many other fields, with a wide range of applications already being perfectly established. Machining tools are, probably, one of the most common applications of this deposition technique, sometimes used together with chemical vapour deposition (CVD) in order to increase their lifespan, decreasing friction, and improving thermal properties. However, the CVD process is carried out at higher temperatures, inducing higher stresses in the coatings and substrate, being used essentially only when the required coating needs to be deposited using this process. In order to improve this technique, several studies have been carried out optimizing the PVD technique by increasing plasma ionization, decreasing dark areas (zones where there is no deposition into the reactor), improving targets use, enhancing atomic bombardment efficiency, or even increasing the deposition rate and optimizing the selection of gases. These studies reveal a huge potential in changing parameters to improve thin film quality, increasing as well the adhesion to the substrate. However, the process of improving energy efficiency regarding the industrial context has not been studied as deeply as required. This study aims to proceed to a review regarding the improvements already studied in order to optimize the sputtering PVD process, trying to relate these improvements with the industrial requirements as a function of product development and market demand.

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Experimental analysis of the ignition front propagation of several biomass fuels in a fixed-bed combustor

Porteiro

Patiño

Collazo

et al. 2010

Fuel

164

114

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Performance and exhaust emissions in the use of biodiesel in outboard diesel engines

Murillo

Mı́guez

Porteiro

et al. 2007

Fuel

289

122

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Use of grey relational analysis to assess and optimize small biomass boilers

Moran

Granada

Mı́guez

et al. 2006

Fuel Processing Technology

183

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Numerical Modeling of a Biomass Pellet Domestic Boiler

et al. 2009

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This paper presents a computational fluid dynamic analysis of a small-scale commercial biomass pellet boiler. Combustion of the particles in the bed plays a key role in the analysis of this kind of systems, and a stand-alone code was used in this work to provide the inlet conditions for the CFD analysis. Model predictions were compared with the experimental gas temperature and species concentration measurements, which were in good agreement. On the basis of the CFD analysis it can be concluded that the interaction of the particles in the bed and the poor mixing of the gases in the furnace are the key factors leading to the high emission levels that are typical of small-scale systems.

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J.L. Mı́guez

Sputtering Physical Vapour Deposition (PVD) Coatings: A Critical Review on Process Improvement and Market Trend Demands

Experimental analysis of the ignition front propagation of several biomass fuels in a fixed-bed combustor

Performance and exhaust emissions in the use of biodiesel in outboard diesel engines

Use of grey relational analysis to assess and optimize small biomass boilers

Numerical Modeling of a Biomass Pellet Domestic Boiler

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