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Angel Fernandez
Mechanical Engineering Department, University of Zaragoza, Zaragoza, Spain

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Journal article
Published: 28 December 2020 in Polymers
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Biopo-lybutylene succinate (bioPBS) is gaining attention in the biodegradable polymer market due to its promising properties, such as high biodegradability and processing versatility, representing a potential sustainable replacement for fossil-based commodities. However, there is still a need to enhance its properties for certain applications, with aesthetical and mechanical properties being a challenge. The aim of the present work is to improve these properties by adding selected additives that will confer bioPBS with comparable properties to that of current counterparts such as polypropylene (PP) for specific applications in the automotive and household appliances sectors. A total of thirteen materials have been studied and compared, being twelve biocomposites containing combinations of three different additives: a commercial red colorant, itaconic acid (IA) to enhance color fixation and zirconia (ZrO2) nanoparticles to maintain at least native PBS mechanical properties. The results show that the combination of IA and the coloring agent tends to slightly yellowish the blend due to the absorbance spectra of IA and also to modify the gloss due to the formation of IA nanocrystals that affects light scattering. In addition, for low amounts of IA (4 wt %), Young’s Modulus seems to be kept while elongation at break is even raised. Unexpectedly, a strong aging affect was found after four weeks. IA increases the hydrophilic behavior of the samples and thus seems to accelerate the hydrolization of the matrix, which is accompanied by an accused disaggregation of phases and an overall softening and rigidization effect. The addition of low amounts of ZrO2 (2 wt %) seems to provide the desired effect for hardening the surface while almost not affecting the other properties; however, higher amounts tends to form aggregates saturating the compounds. As a conclusion, IA might be a good candidate for color fixing in biobased polymers.

ACS Style

Lidia G. Quiles; Julio Vidal; Francesca Luzi; Franco Dominici; Ángel Fernández Cuello; Pere Castell. Color Fixation Strategies on Sustainable Poly-Butylene Succinate Using Biobased Itaconic Acid. Polymers 2020, 13, 79 .

AMA Style

Lidia G. Quiles, Julio Vidal, Francesca Luzi, Franco Dominici, Ángel Fernández Cuello, Pere Castell. Color Fixation Strategies on Sustainable Poly-Butylene Succinate Using Biobased Itaconic Acid. Polymers. 2020; 13 (1):79.

Chicago/Turabian Style

Lidia G. Quiles; Julio Vidal; Francesca Luzi; Franco Dominici; Ángel Fernández Cuello; Pere Castell. 2020. "Color Fixation Strategies on Sustainable Poly-Butylene Succinate Using Biobased Itaconic Acid." Polymers 13, no. 1: 79.

Preprint
Published: 27 November 2020
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BioPBS is gaining attention in the biodegradable polymer market due to their promising properties such as high biodegradability and processing versatility representing a potential sustainable replacement for fossil oil-based commodities. However, there is still a need to enhance its properties for certain applications, being aesthetical and mechanical properties a challenge. The aim of the present work is to improve these properties by adding selected additives that will confer bioPBS with comparable properties to that of current counterparts such as polypropylene (PP) for specific applications in the automotive and household appliances sectors. A total of thirteen materials have been studied and compared, being twelve biocomposites containing combinations of three different additives: a commercial red colourant, itaconic acid (IA) to enhance colour fixation and zirconia (ZrO2) nanoparticles to maintain at least native PBS mechanical properties. Results show that the combination of IA and the colouring agent tends to slightly yellowish the blend due to the absorbance spectra of IA and also to modify the gloss due to the formation of IA nanocrystals that affects light scattering. In addition, for low amounts of IA (4wt.%), young modulus seems to be kept while elongation at break is even raised. Unexpectedly, a strong aging affect was found after 4 weeks. IA increases the hydrophilic behaviour of the samples and thus seems to accelerate the hydrolisation of the matrix, which is accompanied by an accused disaggregation of phases and an overall softening and rigidization effect. The addition of low amounts of ZrO2 (2wt.%) seems to provide the desired effect for hardening the surface while almost not affecting the other properties; however, higher amounts tends to form aggregates saturating the compounds. As a conclusion, IA might be a good candidate for colour fixing in biobased polymers.

ACS Style

Lidia García-Quiles; Julio Vidal; Debora Puglia; Franco Dominici; Ángel Fernández; Pere Castell. Colour Fixation Strategies on Sustainable Polybutylene Succinate Using Biobased Itaconic Acid. 2020, 1 .

AMA Style

Lidia García-Quiles, Julio Vidal, Debora Puglia, Franco Dominici, Ángel Fernández, Pere Castell. Colour Fixation Strategies on Sustainable Polybutylene Succinate Using Biobased Itaconic Acid. . 2020; ():1.

Chicago/Turabian Style

Lidia García-Quiles; Julio Vidal; Debora Puglia; Franco Dominici; Ángel Fernández; Pere Castell. 2020. "Colour Fixation Strategies on Sustainable Polybutylene Succinate Using Biobased Itaconic Acid." , no. : 1.

Journal article
Published: 30 September 2020 in Polymers
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A systematic study comparing the wear behaviour of composites with nylon matrix (PA66, PA46, PA12) and different nanoadditives and reinforcing additives (graphite, graphene, MoS2 and ZrO2) has been carried out in order to achieve a proper self-lubricant material for bearing cages. The wear characterisation was done using pin-on-disc tests, SEM and EDX analysis. The results show that better outcomes are obtained for composites based on PA12. The addition of ZrO2 offers negative values of wear due to the metallic particle transference from the counterface to the polymeric pin.

ACS Style

Isabel Clavería; Sofía Gimeno; Ignacio Miguel; Gemma Mendoza; Aleida Lostalé; Ángel Fernández; Pere Castell; Daniel Elduque. Tribological Performance of Nylon Composites with Nanoadditives for Self-Lubrication Purposes. Polymers 2020, 12, 2253 .

AMA Style

Isabel Clavería, Sofía Gimeno, Ignacio Miguel, Gemma Mendoza, Aleida Lostalé, Ángel Fernández, Pere Castell, Daniel Elduque. Tribological Performance of Nylon Composites with Nanoadditives for Self-Lubrication Purposes. Polymers. 2020; 12 (10):2253.

Chicago/Turabian Style

Isabel Clavería; Sofía Gimeno; Ignacio Miguel; Gemma Mendoza; Aleida Lostalé; Ángel Fernández; Pere Castell; Daniel Elduque. 2020. "Tribological Performance of Nylon Composites with Nanoadditives for Self-Lubrication Purposes." Polymers 12, no. 10: 2253.

Journal article
Published: 31 May 2019 in Polymers
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Polyhydroxyalkanoates (PHAs) are nowadays considered competent candidates to replace traditional plastics in several market sectors. However, commercial PHA materials exhibit unsatisfactory smells that can negatively affect the quality of the final product. The cause of this typical rancid odour is attributed to oxidized cell membrane glycolipids, coming from Gram-negative production strains, which remain frequently attached to PHAs granules after the extraction stage. The aim of this research is the development of customised PHA bio-nano-composites for industrial applications containing organomodified nanoclays with high adsorbance properties able to capture volatile compounds responsible for the displeasing fragrance. To this end, a methodology for the detection and identification of the key volatiles released due to oxidative degradation of PHAs has been established using a headspace solid-phase microextraction technique. We report the development of nine bio-nano-composite materials based on three types of commercial PHA matrices loaded with three species of nanoclays which represent a different polar behaviour. It has been demonstrated that although the reached outcoming effect depends on the volatile nature, natural sepiolite might result in the most versatile candidate for any the PHA matrices selected.

ACS Style

Arantzazu Valdés García; Arantzazu Valdés; Ángel Fernández Cuello; Alfonso Jiménez; María Del Carmen Garrigós; Pere Castell. Reducing off-Flavour in Commercially Available Polyhydroxyalkanoate Materials by Autooxidation through Compounding with Organoclays. Polymers 2019, 11, 945 .

AMA Style

Arantzazu Valdés García, Arantzazu Valdés, Ángel Fernández Cuello, Alfonso Jiménez, María Del Carmen Garrigós, Pere Castell. Reducing off-Flavour in Commercially Available Polyhydroxyalkanoate Materials by Autooxidation through Compounding with Organoclays. Polymers. 2019; 11 (6):945.

Chicago/Turabian Style

Arantzazu Valdés García; Arantzazu Valdés; Ángel Fernández Cuello; Alfonso Jiménez; María Del Carmen Garrigós; Pere Castell. 2019. "Reducing off-Flavour in Commercially Available Polyhydroxyalkanoate Materials by Autooxidation through Compounding with Organoclays." Polymers 11, no. 6: 945.

Preprint
Published: 03 May 2019
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Poly(hydroxyalkanoates) (PHAs) are currently considered competent candidates to replace traditional plastics in several market sectors. However, commercial PHA grades exhibit unsatisfactory smell that can negatively affect the quality of the final product. The cause of this typical rancid odour is attributed to oxidized cell membrane glycolipids, coming from Gram negative production strains, which remain frequently attached to PHAs granules after extraction. The aim of this research is the development of customised PHA nano-biocomposites for industrial applications containing organo-modified nanoclays with high adsorption properties able to capture volatile compounds responsible of the displeasing fragrance in PHAs. To this end, a methodology for the detection and identification of the key volatiles released due to oxidative degradation of PHAs has been established using a headspace solid-phase microextraction technique. We report the development of nine nano-biocomposite materials based on three types of commercial PHA matrices loaded with three species of nanoclays which represent a different polar behaviour. It has been demonstrated that although the reached outcome effect depends on the volatile nature, natural sepiolite (T2) might result in the most versatile candidate for all PHA matrices selected.

ACS Style

Lidia García-Quiles; Arantzazu Valdés; Ángel Fernández-Cuello; María Del Carmen Garrigós; Alfonso Jiménez; Pere Castell. Reducing Off-Flavour in Commercial Polyhydroxyalkanoates Grades Induced by Autoxidation Through the Introduction of Modified Nanoclays. 2019, 1 .

AMA Style

Lidia García-Quiles, Arantzazu Valdés, Ángel Fernández-Cuello, María Del Carmen Garrigós, Alfonso Jiménez, Pere Castell. Reducing Off-Flavour in Commercial Polyhydroxyalkanoates Grades Induced by Autoxidation Through the Introduction of Modified Nanoclays. . 2019; ():1.

Chicago/Turabian Style

Lidia García-Quiles; Arantzazu Valdés; Ángel Fernández-Cuello; María Del Carmen Garrigós; Alfonso Jiménez; Pere Castell. 2019. "Reducing Off-Flavour in Commercial Polyhydroxyalkanoates Grades Induced by Autoxidation Through the Introduction of Modified Nanoclays." , no. : 1.

Journal article
Published: 16 April 2019 in Polymers
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Microplastics have become one of the greatest environmental challenges worldwide. To turn this dramatic damage around, EU regulators now want to ensure that plastic itself is fully recyclable or biodegradable. The aim of the present work is to develop a biobased and biodegradable biocomposite based on commercial polyhydroxyalkanoates (PHAs) and nanoclays, with the objective of achieving a reduction of rancid odour while avoiding any loss in thermomechanical properties, thus tackling two key disadvantages of PHAs. This research aims at completely characterising the structural, thermal and mechanical behaviour of the formulations developed, understanding the compatibility mechanisms in order to be able to assess the best commercial combinations for industrial applications in the packaging and automotive sectors. We report the development of nine nanobiocomposite materials based on three types of commercial PHA matrices: a linear poly(3-hydroxybutyrate) (P3HB); two copolymers based on poly(3-hydroxybutyrate)-co-poly(4-hydroxybutyrate) (P3HB-co-P4HB); and nanoclays, which represent a different polar behaviour. Dispersion achieved is highly relevant compared with literature results. Our findings show impressive mechanical enhancements, in particular for P3HB reinforced with sepiolite modified via aminosilanes.

ACS Style

Lidia García-Quiles; Ángel Fernández Cuello; Pere Castell; García- Quiles. Sustainable Materials with Enhanced Mechanical Properties Based on Industrial Polyhydroxyalkanoates Reinforced with Organomodified Sepiolite and Montmorillonite. Polymers 2019, 11, 696 .

AMA Style

Lidia García-Quiles, Ángel Fernández Cuello, Pere Castell, García- Quiles. Sustainable Materials with Enhanced Mechanical Properties Based on Industrial Polyhydroxyalkanoates Reinforced with Organomodified Sepiolite and Montmorillonite. Polymers. 2019; 11 (4):696.

Chicago/Turabian Style

Lidia García-Quiles; Ángel Fernández Cuello; Pere Castell; García- Quiles. 2019. "Sustainable Materials with Enhanced Mechanical Properties Based on Industrial Polyhydroxyalkanoates Reinforced with Organomodified Sepiolite and Montmorillonite." Polymers 11, no. 4: 696.

Journal article
Published: 02 November 2018 in Tribology International
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Graphene nanoflakes and zirconium dioxide (ZrO2) were added to polyamide 66-based composites with glass fibre in order to improve their self-lubricating properties and make them suitable for high-performance bearing applications. The influence of texturing the surfaces was also investigated. The tribological behaviour was analysed for different combinations of hybrid polymeric composites, percentages of additive, and texturing geometries. The results show that the lowest low friction coefficients are obtained for PA66 + 30GF with 5% graphene. Worn surfaces, analysed by scanning electron microscopy and optical microscopy confirm the enhancement of the tribological properties with the addition of graphene. Texturing results under dry lubrication are not relevant for tribological purposes.

ACS Style

Isabel Clavería; Daniel Elduque; Aleida Lostalé; Ángel Fernández; Pere Castell; Carlos Javierre. Analysis of self-lubrication enhancement via PA66 strategies: Texturing and nano-reinforcement with ZrO2 and graphene. Tribology International 2018, 131, 332 -342.

AMA Style

Isabel Clavería, Daniel Elduque, Aleida Lostalé, Ángel Fernández, Pere Castell, Carlos Javierre. Analysis of self-lubrication enhancement via PA66 strategies: Texturing and nano-reinforcement with ZrO2 and graphene. Tribology International. 2018; 131 ():332-342.

Chicago/Turabian Style

Isabel Clavería; Daniel Elduque; Aleida Lostalé; Ángel Fernández; Pere Castell; Carlos Javierre. 2018. "Analysis of self-lubrication enhancement via PA66 strategies: Texturing and nano-reinforcement with ZrO2 and graphene." Tribology International 131, no. : 332-342.

Journal article
Published: 07 April 2016 in Applied Sciences
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Besides presenting a volumetric verification technique that allows characterization of the different geometric errors of a machine tool (MT) depending on its kinematic chain and geometry through a kinematic model, this paper investigates the influence of measurement tools and techniques available on the final accuracy of the MT. Volumetric verification based on a laser tracker (LT) relates the coordinates of the tool with the coordinates of the LT, including it into the kinematic model. Using a non-lineal optimization process, approximation functions that characterize the joint influence of MT geometric errors are obtained. However, measurement data will be affected by previous compensation of the MT, the accuracy of the measurement system, LT measurement technology, the type of retroreflector used, and techniques used to improve data accuracy, among other sources of errors. This paper studies the adequacy of different commercial alternatives such as: retroreflectors, LTs from different manufacturers, etc., that can be applied in MT verification using a long-range MT. As the accuracy is strongly affected by the uncertainty of its angular encoders, the multilateration technique tries to improve data accuracy using only LT radial information. Nonetheless, a new bundle adjustment which uses radial and angular information is presented in current metrology software. This paper studies both techniques and analyzes their adequacy for MT verification too.

ACS Style

Sergio Aguado; Jorge Santolaria; David Samper; Jesús Velázquez; Carlos Javierre; Ángel Fernández. Adequacy of Technical and Commercial Alternatives Applied to Machine Tool Verification Using Laser Tracker. Applied Sciences 2016, 6, 100 .

AMA Style

Sergio Aguado, Jorge Santolaria, David Samper, Jesús Velázquez, Carlos Javierre, Ángel Fernández. Adequacy of Technical and Commercial Alternatives Applied to Machine Tool Verification Using Laser Tracker. Applied Sciences. 2016; 6 (4):100.

Chicago/Turabian Style

Sergio Aguado; Jorge Santolaria; David Samper; Jesús Velázquez; Carlos Javierre; Ángel Fernández. 2016. "Adequacy of Technical and Commercial Alternatives Applied to Machine Tool Verification Using Laser Tracker." Applied Sciences 6, no. 4: 100.

Journal article
Published: 01 April 2016 in Polymer Testing
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ACS Style

Isabel Clavería; Daniel Elduque; Jorge Santolaria; Carmelo Pina; Carlos Javierre; Angel Fernandez. The influence of environmental conditions on the dimensional stability of components injected with PA6 and PA66. Polymer Testing 2016, 50, 15 -25.

AMA Style

Isabel Clavería, Daniel Elduque, Jorge Santolaria, Carmelo Pina, Carlos Javierre, Angel Fernandez. The influence of environmental conditions on the dimensional stability of components injected with PA6 and PA66. Polymer Testing. 2016; 50 ():15-25.

Chicago/Turabian Style

Isabel Clavería; Daniel Elduque; Jorge Santolaria; Carmelo Pina; Carlos Javierre; Angel Fernandez. 2016. "The influence of environmental conditions on the dimensional stability of components injected with PA6 and PA66." Polymer Testing 50, no. : 15-25.

Research article
Published: 01 February 2016 in Advances in Mechanical Engineering
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Polishing process is one of the most critical manufacturing processes during a metal part production because it determines the final quality of the product. Free-form surface polishing is a handmade process with lots of rejected parts, scrap generation and time and energy consumption. Two different research lines are being developed: prediction models of the final surface quality parameters and an analysis of the amount of material removed depending on the polishing parameters to predict the tool footprint during the polishing task. This research lays the foundations for a future automatic conformal polishing system. It is based on rotational and translational tool with dry abrasive in the front mounted at the end of a robot. A tool to part concept is used, useful for large or heavy workpieces. Results are applied on different curved parts typically used in tooling industry, aeronautics or automotive. A mathematical model has been developed to predict the amount of material removed in function of polishing parameters. Model has been fitted for different abrasives and raw materials. Results have shown deviations under 20% that implies a reliable and controllable process. Smaller amount of material can be removed in controlled areas of a three-dimensional workpiece.

ACS Style

José A Dieste; Angel Fernández-Cuello; Carlos Javierre; Jorge Santolaria. Conformal polishing approach: Tool footprint analysis. Advances in Mechanical Engineering 2016, 8, 1 .

AMA Style

José A Dieste, Angel Fernández-Cuello, Carlos Javierre, Jorge Santolaria. Conformal polishing approach: Tool footprint analysis. Advances in Mechanical Engineering. 2016; 8 (2):1.

Chicago/Turabian Style

José A Dieste; Angel Fernández-Cuello; Carlos Javierre; Jorge Santolaria. 2016. "Conformal polishing approach: Tool footprint analysis." Advances in Mechanical Engineering 8, no. 2: 1.

Journal article
Published: 01 December 2015 in Journal of Cleaner Production
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ACS Style

Ana Elduque; Daniel Elduque; Carlos Javierre; Ángel Fernández; Jorge Santolaria. Environmental impact analysis of the injection molding process: analysis of the processing of high-density polyethylene parts. Journal of Cleaner Production 2015, 108, 80 -89.

AMA Style

Ana Elduque, Daniel Elduque, Carlos Javierre, Ángel Fernández, Jorge Santolaria. Environmental impact analysis of the injection molding process: analysis of the processing of high-density polyethylene parts. Journal of Cleaner Production. 2015; 108 ():80-89.

Chicago/Turabian Style

Ana Elduque; Daniel Elduque; Carlos Javierre; Ángel Fernández; Jorge Santolaria. 2015. "Environmental impact analysis of the injection molding process: analysis of the processing of high-density polyethylene parts." Journal of Cleaner Production 108, no. : 80-89.

Journal article
Published: 19 October 2015 in Materials
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The aim of this research paper is to study the behaviour of a common used biopolymer (Poly(Lactic Acid) (PLA)) after several reprocesses and how two different types of additives (a melt strength enhancer and a nanoadditive) affect its mechanical and rheological properties. Systematic extraction of extrudate samples from a twin-screw compounder was done in order to study the effect in the properties of the reprocessed material. Detailed rheological tests on a capillary rheometer as well as mechanical studies on a universal tensile machine after preparation of injected specimens were carried out. Results evidenced that PLA and reinforced PLA materials can be reprocessed and recycled without a remarkable loss in their mechanical properties. Several processing restrictions and specific phenomena were identified and are explained in the present manuscript.

ACS Style

Víctor Peinado; Pere Castell; Lidia García; Ángel Fernández. Effect of Extrusion on the Mechanical and Rheological Properties of a Reinforced Poly(Lactic Acid): Reprocessing and Recycling of Biobased Materials. Materials 2015, 8, 7106 -7117.

AMA Style

Víctor Peinado, Pere Castell, Lidia García, Ángel Fernández. Effect of Extrusion on the Mechanical and Rheological Properties of a Reinforced Poly(Lactic Acid): Reprocessing and Recycling of Biobased Materials. Materials. 2015; 8 (10):7106-7117.

Chicago/Turabian Style

Víctor Peinado; Pere Castell; Lidia García; Ángel Fernández. 2015. "Effect of Extrusion on the Mechanical and Rheological Properties of a Reinforced Poly(Lactic Acid): Reprocessing and Recycling of Biobased Materials." Materials 8, no. 10: 7106-7117.

Journal article
Published: 31 March 2015 in Sustainability
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During the last decades, society’s concern for the environment has increased. Specific tools like the Life Cycle Assessment (LCA), and software and databases to apply this method have been developed to calculate the environmental burden of products or processes. Calculating the environmental impact of plastic products is relevant as the global plastics production rose to 288 million tons in 2012. Among the different ways of processing plastics, the injection molding process is one of the most used in the industry worldwide. In this paper, a sensitivity analysis of the environmental impact of the injection molding process has been carried out. In order to perform this study, the EcoInvent database inventory for injection molding, and the data from which this database is created, have been studied. Generally, when an LCA of a product is carried out, databases such as EcoInvent, where materials, processes and transports are characterized providing average values, are used to quantify the environmental impact. This approach can be good enough in some cases but in order to assess a specific production process, like injection molding, a further level of detail is needed. This study shows how the final results of environmental impact differ for injection molding when using the PVC’s, PP’s or PET’s data. This aspect suggests the necessity of studying, in a more precise way, this process, to correctly evaluate its environmental burden. This also allows us to identify priority areas and thereby actions to develop a more sustainable way of manufacturing plastics.

ACS Style

Ana Elduque; Carlos Javierre; Daniel Elduque; Ángel Fernández. LCI Databases Sensitivity Analysis of the Environmental Impact of the Injection Molding Process. Sustainability 2015, 7, 3792 -3800.

AMA Style

Ana Elduque, Carlos Javierre, Daniel Elduque, Ángel Fernández. LCI Databases Sensitivity Analysis of the Environmental Impact of the Injection Molding Process. Sustainability. 2015; 7 (4):3792-3800.

Chicago/Turabian Style

Ana Elduque; Carlos Javierre; Daniel Elduque; Ángel Fernández. 2015. "LCI Databases Sensitivity Analysis of the Environmental Impact of the Injection Molding Process." Sustainability 7, no. 4: 3792-3800.

Research article
Published: 01 January 2015 in International Journal of Advanced Robotic Systems
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The polishing process is the final step in the manufacturing workflow for many parts and tools. While previous tasks have evolved technically, the finishing of freeform surfaces is still effected mostly by hand. Many parts are rejected because no control of the process is possible. The main problems are geometrical shape deviations and no repeatability of the process. A new methodology has been developed for the passes of the abrasive on the polished part. This research focusses on the feasibility of robotic polishing and the development of a new evolution model pertaining to the surface roughness for an abrasive tool mounted on a spherical robot. The polishing principle is mechanic and based on dry friction. The tool is multilayered with a compressive foamed core. The combination of rotational and translational movement requires the creation of a model that can predict the footprint on the polished surface. The mathematical model developed for the evolution model permits for making a prediction of the final surface quality in the function of the programmed polishing parameters. Furthermore, the model described allows for setting up polishing parameters in order to reach a desired final roughness with less than 15% deviation. Repeatability is assured and polishing time is reduced down to 1/5 of manually effected procedures.

ACS Style

Angel Fernandez; Dieste Jose Antonio; Carlos Javierre; Santolaria Jorge. Surface Roughness Evolution Model for Finishing Using an Abrasive Tool on a Robot. International Journal of Advanced Robotic Systems 2015, 12, 119 .

AMA Style

Angel Fernandez, Dieste Jose Antonio, Carlos Javierre, Santolaria Jorge. Surface Roughness Evolution Model for Finishing Using an Abrasive Tool on a Robot. International Journal of Advanced Robotic Systems. 2015; 12 (9):119.

Chicago/Turabian Style

Angel Fernandez; Dieste Jose Antonio; Carlos Javierre; Santolaria Jorge. 2015. "Surface Roughness Evolution Model for Finishing Using an Abrasive Tool on a Robot." International Journal of Advanced Robotic Systems 12, no. 9: 119.

Journal article
Published: 01 February 2014 in Journal of Food Engineering
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ACS Style

Begoña Panea; Guillermo Ripoll; Jaime González; Ángel Fernández Cuello; Pere Albertí. Effect of nanocomposite packaging containing different proportions of ZnO and Ag on chicken breast meat quality. Journal of Food Engineering 2014, 123, 104 -112.

AMA Style

Begoña Panea, Guillermo Ripoll, Jaime González, Ángel Fernández Cuello, Pere Albertí. Effect of nanocomposite packaging containing different proportions of ZnO and Ag on chicken breast meat quality. Journal of Food Engineering. 2014; 123 ():104-112.

Chicago/Turabian Style

Begoña Panea; Guillermo Ripoll; Jaime González; Ángel Fernández Cuello; Pere Albertí. 2014. "Effect of nanocomposite packaging containing different proportions of ZnO and Ag on chicken breast meat quality." Journal of Food Engineering 123, no. : 104-112.

Journal article
Published: 01 March 2013 in Advanced Science Letters
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ACS Style

José Antonio Dieste Marcial; Angel Fernandez Cuello; David Roba Fontán. Rapid Finishing of Free Form Surfaces Using Milling Machine and Spherical Robot. Advanced Science Letters 2013, 19, 849 -852.

AMA Style

José Antonio Dieste Marcial, Angel Fernandez Cuello, David Roba Fontán. Rapid Finishing of Free Form Surfaces Using Milling Machine and Spherical Robot. Advanced Science Letters. 2013; 19 (3):849-852.

Chicago/Turabian Style

José Antonio Dieste Marcial; Angel Fernandez Cuello; David Roba Fontán. 2013. "Rapid Finishing of Free Form Surfaces Using Milling Machine and Spherical Robot." Advanced Science Letters 19, no. 3: 849-852.