{"id":15,"date":"2024-04-29T09:57:43","date_gmt":"2024-04-29T07:57:43","guid":{"rendered":"https:\/\/wp.icmm.csic.es\/mscg\/?page_id=15"},"modified":"2025-10-07T20:53:58","modified_gmt":"2025-10-07T18:53:58","slug":"processing-2","status":"publish","type":"page","link":"https:\/\/wp.icmm.csic.es\/mscg\/processing-2\/","title":{"rendered":"Processing"},"content":{"rendered":"\n\n\n
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Description<\/span><\/strong><\/a><\/b><\/p>\n<\/td>\n

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Experimental<\/span> techniques<\/span><\/strong><\/a><\/b><\/span><\/p>\n<\/td>\n

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Publications<\/a><\/strong><\/span><\/p>\n<\/td>\n

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Ph.D. thesis<\/span><\/a><\/b><\/p>\n<\/td>\n

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Projects<\/span><\/a><\/b><\/p>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

<\/a><\/p>\n

The group specialises in the design of new materials with a range of application-specific properties. Particular emphasis is placed on the control of processing parameters in relation to the microstructure and on the development of economically viable and extremely high-performance manufacturing technologies. By simultaneously controlling the morphology and distribution of the various structural elements at different scales, it has been possible to make opposing properties compatible and\/or introduce new ones. Using what we have termed microstructural engineering as a tool, materials have been developed that show multifunctionality and multicapacity, combining properties that are currently present exclusively in different classes of materials, even with antagonistic properties. This concept is based on three lines of action:<\/p>\n

– Structure organised at different scales, based on an increase in microstructural complexity in order to improve the final properties.<\/p>\n

– Multimaterial, based on the integration of several materials in a multifunctional component.<\/p>\n

– Synergy of mechanisms, based on the interaction between mechanisms that enhance their magnitude.<\/p>\n

Our research is aimed at satisfying more complex demands that require the involvement of a set of materials that act in solidarity. In order to apply these principles, it is necessary to have prior and precise knowledge of the processing of the materials involved in the system so that their interrelation can be equally predefined.<\/p>\n

The lines of research currently focus on the study of:<\/p>\n

Development of new biomaterials for medical implants.<\/u><\/p>\n

This line of research aims to obtain a new generation of biomultifunctional micro-nanostructured composite materials. The development of ceramic-metal materials (biocermets) for use in medical implants should be highlighted. Composite materials are being developed with high mechanical properties (tolerance to defects and resistance to cyclic fatigue), with no corrosion and excellent tribological properties, the possibility of machining them into complex shapes by electroerosion, and which do not present problems such as infections or diagnostics (artefacts generated using the NMR technique). They also have a high degree of biocompatibility and osteoconduction with a high capacity for osseointegration. All these properties make them an ideal material to replace current biomaterials that have a limited lifetime and are not the ideal solution for use in medical prostheses.<\/p>\n

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Sepiolite-based additives as a vector of nanoparticles to improve the properties of organic and inorganic matrices.<\/u><\/p>\n

The main objective of this research line is the development of nanocomposite materials with an inorganic or polymeric matrix with multiple functionalities, e.g. high mechanical and tribological resistance, biocidal activity, etc. Sepiolite is able to host nanoparticles and optimise nano\/microparticulate materials with many interesting properties, which are being exploited in products with new functionalities. This line of research is carried out in collaboration with the company Tolsa, the main producer of sepiolite in the Community of Madrid, and has enabled the company to acquire new knowledge within its line of special additives. In particular, it has meant an important advance in the design and manufacture of new additives that show a synergic and ceramifying behaviour in fire conditions of different polymeric matrices, mainly EVA and PP. This development has led to the creation of a new Business Unit within the company whose objective is the development, launch and commercialisation of significantly improved special additives. The additives developed within the project, ADINS Clay 20 and ADINS Fireproof, are currently marketed to improve the fire performance of polymer composites in sectors such as construction and cables in Europe, China and the USA.<\/p>\n

Processing optimization of eco-friendly piezoceramics<\/u><\/p>\n

Several sectors are affected by advances in the knowledge of eco-piezoceramics as they impact on the environmental benefit of all the different applications of actuators and sensors based on piezoelectric ceramics. The main objective of this line of research is based on the implementation of new processing strategies to improve the structural and functional properties of eco-piezoceramics with the ultimate goal of increasing the durability and reliability of devices based on them.<\/p>\n

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<\/a>Experimental techniques<\/span><\/strong><\/span><\/p>\n

Complete ceramic processing lab with equipment for:<\/strong><\/p>\n

Weighting, mixing, milling, drying, sieving and moulding<\/strong>,
\n\u2013 SARTORIUS balance, model LA120S
\n\u2013 Laboratory balances DENVER INSTRUMENT
\n\u2013 High shear shaker SILVERSON RGXL,
\n\u2013 EUROSTAR IKA stirrers
\n\u2013 SIEMENS MICROMASTER homogenizing ball milling
\n– Attrition milling
\n\u2013 Microclave SELECTA 4001404J
\n\u2013 TELSTAR CRYODOS freeze dryer
\n\u2013 Sieve shaker RETSCH AS300
\n\u2013 Ultrasonic bath STRUERS-METASON
\n\u2013 High frequency ultrasound SONICS&MATERIALS VIBRACEL
\n\u2013 Uniaxial and Isostatic press
\nHeat treatment equipment<\/strong>:
\n\u2013 CARBONITE laboratory furnace
\n\u2013 Lift furnace ASTURSINTER
\n\u2013 High temperature muffle furnace 1800\u00b0C ASTURSINTER
\n\u2013 Controlled atmosphere tube furnace 1750\u00b0C HOBERSAL
\n\u2013 Muffle furnace ASTURSINTER
\n\u2013 Vacuum tube furnace
\n\u2013 Controlled Atmosphere Tube Furnace ASTURSINTER
\n– Controlled atmosphere tube furnace CARBOLITE STF 16\/75
\n– Hot-pressing
\nCeramic sample preparation<\/strong>:
\n\u2013 2 STRUERS MINITOM cutters
\n\u2013 Automatic polishing machines
\n\u2013 BUEHLER AUTHOMET 250
\n\u2013 BUEHLER PHOENIX BETA
\n\u2013 REMET EVOLUTION metallographic press
\n\u2013 2 Vibration polishing machines BUEHLER VIBROMET
\n\u2013 Semi-automatic micro cutter REMET MICROMET EVOLUTION
\n\u2013 Precision cutter BUEHLER ISOMET 5000
\nCharacterisation equipment<\/strong>:
\n\u2013 Rheometer HAAKE RS 50
\n\u2013 Dilatometer for high temperature and controlled atmospheres BAHR 802
\n\u2013 LEICA DMRM optical microscope
\n\u2013 PHENOM G2 pro benchtop scanning microscope
\n\u2013 3D contact profilometer.<\/p>\n

<\/a>Publications<\/span><\/strong><\/span><\/p>\n

Publications (last 10 years)<\/strong><\/p>\n

– MARIA DORE, JOS\u00c9 F. BARTOLOM\u00c9, SONIA L\u00d3PEZ-ESTEBAN, MARZIA MUREDDU, COSTANTINO CAU, STEFANO ENZO, \u00c1LVARO GARC\u00cdA, SEBASTIANO GARRONI, LORENA PARDO.
\n\u201c Lead-Free (K0.50<\/sub>Na0.50<\/sub>)NbO3<\/sub> Unmodified Piezoceramics: Reduction in the Energetic Budget of Solid-State Synthesis and Sintering\u00bb<\/strong><\/a>
\nChemistry-Methods<\/em>, 2500038 (2025)
\nDOI: 10.1002\/cmtd.202500038<\/p>\n

– S. LOPEZ-ESTEBAN, R. DIAZ, B. CABAL, A. GIL, E. SOTELO, J. AZUAJE, J.F. BARTOLOME, J.S. MOYA, C. PECHARROMAN
\n\u201cSepiolite\/copper nanostructured compacts for healthcare and catalytic applications\u00bb<\/strong><\/a>\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 Materials & Design, 255, 114200 (2025)
\nhttps:\/\/doi.org\/10.1016\/j.matdes.2025.114200.<\/p>\n

– M.L. PUERTAS, JOS\u00c9 F. BARTOLOM\u00c9, A. ESTEBAN-CUBILLO
\n\u00abSynergistically ceramization of rubber system for fire safety cable by sepiolite functionalized with boron-based nanoparticles\u00bb<\/a><\/b><\/strong>.
\nBolet\u00edn de la Sociedad Espa\u00f1ola de Cer\u00e1mica y Vidrio 64(1), 33-44 (2025)
\ndoi.org\/10.1016\/j.bsecv.2024.10.002<\/p>\n

– LAURA CAGGIU, CONSTANTINO CAU, MARZIA MUREDDU, STEFANO ENZO, FABRIZIO MURGIA, LORENA PARDO, SONIA LOPEZ_ESTEBAN, JOSE F. BARTOLOME, GABRIELE MULAS ROBERTO ORRU, SEBASTIANO GARRONI. \u201cHigh Purity, Crystallinity and Electromechanical Sensitivity of Lead-Free (Ba0.85<\/sub>Ca0.15<\/sub>)(Zr0.10<\/sub>Ti0.90<\/sub>)O3<\/sub> Synthesized Using an EDTA\/glycerol Modified Pechini Method\u00bb<\/strong><\/a> Materials<\/em>, 18(5), 1180 (2025)
\nDOI: 10.3390\/ma18051180<\/p>\n

– MARZIA MUREDDU, ARMANDO REYES-MONTERO, SONIA LOPEZ-ESTEBAN, JOSE F. BARTOLOME, STEFANO ENZO, LORENA PARDO, SEBASTIANO GARRONI. \u201cHallmarks of BCZT-based piezoceramics: From chemical fundamental to processing route and biomedical applications\u201d<\/a><\/b>
\nBolet\u00edn de la Sociedad Espa\u00f1ola de Cer\u00e1mica y Vidrio<\/em>, Available online 25 February 2025
\nhttps:\/\/doi.org\/10.1016\/j.bsecv.2025.01.003<\/p>\n

-J.S. MOYA, B. CABAL, S. LOPEZ-ESTEBAN, J.F. BARTOLOME, J. SANZ.
\n\u201cSignificance of the formation of pentahedral aluminum in the reactivity of calcined kaolin\/metakaolin and its applications\u201d<\/a><\/b>. Ceramics International<\/em>, vol. 50, issue 1, 1329-1340 (2024). DOI: https:\/\/doi.org\/10.1016\/j.ceramint.2023.10.304<\/p>\n

-MARZIA MUREDDU, JOS\u00c9 F. BARTOLOM\u00c9, SONIA LOPEZ-ESTEBAN, MARIA DORE, STEFANO ENZO, \u00c1LVARO GARC\u00cdA,SEBASTIANO GARRONI AND LORENA PARDO.
\n\u201cBaZrO3<\/sub>-BaTiO3<\/sub>-CaTiO3<\/sub>\u00a0piezoceramics by a water-based mixed-oxide route: Synergetic action of attrition milling and lyophilization\u201d<\/a><\/b>. Journal of the European Ceramic Society<\/em>\u00a044 (5), 2944-2953 (2024) DOI: 10.1016\/j.jeurceramsoc.2023.12.037<\/p>\n

-L.A. D\u00cdAZ, M. SU\u00c1REZ, J.F. BARTOLOM\u00c9, S. LOPEZ-ESTEBAN, B. CABAL, A. MORENO, M.C. BORDES, A. FERN\u00c1NDEZ, C. PECHARROM\u00c1N, J.S. MOYA.
\n\u201cGlass with a low-melting temperature belonging to the P2O5\u2013CaO\u2013Na2O system, applied as a coating on technical ceramics (alumina, zirconia) and traditional ceramics (porcelain stoneware)\u201d<\/a><\/b>. Boletin de la Sociedad Espanola de Ceramica y Vidrio<\/em>, 63(2), 104-114 (2024). https:\/\/doi.org\/10.1016\/j.bsecv.2023.07.003<\/p>\n

-SANCHEZ DEL R\u00cdO, A. PAEZ-PAVON, J.M. TORRALBA, D. GARBIEC, J.S. MOYA, S. LOPEZ-ESTEBAN, C. PECHARROMAN.
\n\u201cPortland cement clinkers turned into garnets by spark plasma sintering\u201d<\/a><\/b>. Ceramics International<\/em>, 49(6), 9725-9734 (2023). https:\/\/doi.org\/10.1016\/j.ceramint.2022.11.146<\/p>\n

-M.F. ACOSTA, M. MORALES, G. MARCELO, S. L\u00d3PEZ-ESTEBAN, A. ESTEBAN-CUBILLO, P.M. RODR\u00cdGUEZ-PASCUAL, C. PECHARROM\u00c1N.
\n\u201cBottom up anatase monodisperse nanoparticles grown on sepiolite showing high thermal stability and optimal optical properties for self-cleaning applications\u201d<\/a><\/b>. Applied Clay Science<\/em>, 246, 107189 (2023) . https:\/\/doi.org\/10.1016\/j.clay.2023.107189<\/p>\n

– MARZIA MUREDDU, JOS\u00c9 F. BARTOLOM\u00c9, SONIA LOPEZ-ESTEBAN, MARIA DORE, STEFANO ENZO, \u00c1LVARO GARC\u00cdA,SEBASTIANO GARRONI AND LORENA PARDO.
\n\u201cSolid State Processing of BCZT Piezoceramics Using Ultra Low Synthesis and Sintering Temperatures\u201d<\/a><\/b>. Materials<\/em>,\u00a016 (3), 945 (2023). https:\/\/www.mdpi.com\/1996-1944\/16\/3\/945<\/p>\n

-COSTA-SILVA D.L., BARTOLOME, JF., SILVA A.C., MELLO-CASTANHO, S.
\n\u201cStructural and thermal influence of niobia in aluminoborosilicate glasses\u201d<\/a><\/b> Ceramics International<\/em>. 48 (13), 18433 – 184401 (2022) https:\/\/doi.org\/10.1016\/j.ceramint.2022.03.112<\/p>\n

-L\u00d3PEZ-P\u00cdRIZ, R.; GOYOS-BALL, L. ;CABAL, B. ;MART\u00cdNEZ, S., C;MOYA, J. S.C;BARTOLOM\u00c9, J. F.;TORRECILLAS, R.
\n\u201cNew Ceramic Multi-Unit Dental Abutments with an Antimicrobial Glassy Coating\u201d<\/a><\/b> Materials<\/em>, 15(15), 5422 (2022). https:\/\/doi.org\/10.3390\/ma15155422<\/p>\n

-PUERTAS, M. L.; DURAN, T. ; BARTOLOME, J. F.; ESTEBAN-CUBILLO, A.
\n\u201cSynthesis of a Zinc Hydroxystannate\/Sepiolite Hybrid Additive to Avoid Fire Propagation and Reduce Smoke Emission of EPDM Rubber Nanocomposites\u201d<\/a><\/b> Materials<\/em>, 15(18), 6297 (2022). https:\/\/doi.org\/10.3390\/ma15186297<\/p>\n

-IACOMINI, A. ; GARRONI, S.; MUREDDU, M.; MALFATTI, L.; THAKKAR, S.; ORRU, R.; BARBAROSSA, S.; PAKHOMOVA, E.; CAO, G.; TAMAYO-RAMOS, J.A.; DE LA PARRA, S.; RUMBO, C.; GARCIA, A.; BARTOLOME, J.F.; PARDO, L.
\n\u201cProcessing, microstructure, electrical properties and cytotoxic behaviour of lead-free 0.99K0.5Na0.5NbO3-0.01BiFeO3 piezoceramics prepared using Spark Plasma Sintering (SPS)\u201d<\/a><\/b>.Journal of Solid State Chemistry<\/em>, 316, 123589 (2022). https:\/\/doi.org\/10.1016\/j.jssc.2022.123589<\/p>\n

– A. IACOMINI, S. GARRONI, G. MULAS, S. ENZO, L. CAPPAI, M. MUREDDU, C. CAU, \u00c1. GARC\u00cdA, L. PARDO.
\n\u00abProcessing, phase evolution and electrical properties of \u201clead free\u201d KNN\u2013BF\u2013CuO eco-piezoceramic from mechanochemically activated precursors\u00bb<\/a><\/b>. Open Ceramics<\/em>, 9, 100247 (2022). DOI10.1016\/j.oceram.2022.100247<\/p>\n

-SUAREZ, M.; DIAZ, L.A.; BARTOLOME, J. F.; BORRELL, A.; LOPEZ-ESTEBAN, S.; TORRECILLAS, R.; MOYA, J. S.; FERNANDEZ, A.
\n\u201cNull-thermal expansion coefficient LAS-nSiC composite by slip-casting\u201d<\/a><\/b>. Journal of The European Ceramic Society<\/em>, 42, 15, 7228-7236 (2022). DOI10.1016\/j.jeurceramsoc.2022.08.001<\/p>\n

-LOPEZ-ESTEBAN, S., CABAL, B., BORRELL, A., BARTOLOM\u00c9, J.F., FERNANDEZ, A., FARALDOS, M., BAHAMONDE, A, . MOYA, J.S., PECHARROMAN, C.
\n\u201cLead-free low-melting-point glass as bonding agent for TiO2 nanoparticles\u201d<\/a><\/b>. Ceramics International<\/em>, 47 (5),6114-6120 (2021). https:\/\/www.sciencedirect.com\/science\/article\/pii\/S0272884220332442<\/p>\n

-ARAUJO, MS., SILVA, AC., CABAL, B., BARTOLOME, JF., MELLO-CASTANHO, S.
\n\u201cIn vitro bioactivity and antibacterial capacity of 45S5 Bioglass (R)-based compositions containing alumina and strontium\u201d<\/a><\/b>. Journal of Materials Research and Technology<\/em>, 13, pp.154-161 (2021) https:\/\/www.sciencedirect.com\/science\/article\/pii\/S2238785421003975<\/p>\n

-IACOMINI A.,GARRONI S.,SENES N.,MULAS G.,ENZO S.,PODDIGHE M.,GARC\u00cdA \u00c1.,BARTOLOM\u00c9 J.F., PARDO L.
\n\u201cMgNb2O6 Modified K0.5Na0.5NbO3 Eco-Piezoceramics: Scalable Processing, Structural Distortion and Complex Impedance at Resonance\u201d<\/a><\/b>. Chemistry Open<\/em>, 10, 8, 798 \u2013 805 (2021) DOI10.1002\/open.202100089<\/p>\n

-SMIRNOV, A.,\u00a0\u00a0 PINARGOTE, N.W.S.,\u00a0 PERETYAGIN, N.,\u00a0 PRISTINSKIY, Y., PERETYAGIN, P., BARTOLOM\u00c9, J.F.
\n\u201cZirconia reduced graphene oxide nano-hybrid structure fabricated by the hydrothermal reaction method\u201d<\/a><\/b>. Materials<\/em> 13, N3, 687 (2020). DOI10.3390\/ma13030687<\/p>\n

-ARAUJO, MS., SILVA, AC., , BARTOLOME JF., MELLO-CASTANHO, S.
\n\u201cStructural and thermal behavior of 45S5 Bioglass\u00ae-based compositions containing alumina and strontium\u201d<\/a><\/b>. Journal of the American Ceramic Society<\/em>, 103(6) 3620-3630 (2020) DOI10.1111\/jace.17061<\/p>\n

-D\u00cdAZ M., SMIRNOV, A., GUTI\u00c9RREZ-GONZ\u00c1LEZ C.F., ESTRADA D., BARTOLOM\u00c9, J.F.
\n\u201cMicrostructure and Mechanical Properties of Zirconia (3Y-TZP)\/Zr Composites Prepared by Wet Processing and Subsequent Spark Plasma Sintering\u201d<\/a><\/b>. Ceramics<\/em> 3(1), 53-64 (2020). DOI10.3390\/ceramics3010007<\/p>\n

-SMIRNOV, A.,\u00a0 PERETYAGIN, P.\u00a0 PINARGOTE, N.W.S.,\u00a0 GERSHMAN, I.,\u00a0 BARTOLOM\u00c9, J.F.
\n\u201cWear behavior of graphene-reinforced Alumina\u2013Silicon carbide Whisker nanocomposite\u201d<\/a><\/b>. Nanomaterials<\/em> \u00a0 Vol. 9, N2, Article number 151 (2019). DOI10.3390\/nano9020151<\/p>\n

-DA SILVA, M.J.,\u00a0 PONTUSCHKA, W.M.,\u00a0 BARTOLOM\u00c9, J.F.,\u00a0 JASINSKI, P.,\u00a0 KARCZEWSKI, J.,\u00a0 REIS, S.T.
\n\u201cIonic conductivity behavior by activated hopping conductivity (AHC) of barium aluminoborosilicate glass\u2013ceramic system designed for SOFC sealing\u201d<\/a><\/b>. Journal of the European Ceramic Society<\/em> 39 (10), 3103-3111 (2019). DOI10.1016\/j.jeurceramsoc.2019.03.027<\/p>\n

-SMIRNOV, A.,\u00a0 PERETYAGIN, P. ,\u00a0 BARTOLOM\u00c9, J.F.
\n\u201cProcessing and mechanical properties of new hierarchical metal-graphene flakes reinforced ceramic matrix composites\u201d<\/a><\/b>. Journal of the European Ceramic Society<\/em> 39 (12) 3491-3497 (2019). DOI10.1016\/j.jeurceramsoc.2019.02.044<\/p>\n

-LIU, J. SANZ, C. PECHARROM\u00c1N, I. SOBRADOS, S. LOPEZ-ESTEBAN, R. TORRECILLAS, DE-YI WANG, J.S. MOYA, B. CABAL.
\n\u201cSynthesis, characterization and applications of low temperature melting glasses belonging to P2O5-CaO-Na2O system\u201d<\/a><\/b>. Ceramics International<\/em>, 45(9) 12234-12242 (2019). DOI: 10.1016\/j.ceramint.2019.03.133<\/p>\n

-KUNZ, C; BARTOLOM\u00c9 J. F.; NECCO, E.; M\u00dcLLER F. A.; GR\u00c4F,S.
\n\u201cSelective generation of laser-induced periodic surface structures on Al2O3-ZrO2-Nb composites\u201d<\/a><\/b> Applied Surface Science<\/em>\u00a0 Vol. 434, 15, 582-587 (2018) DOI10.1016\/j.apsusc.2017.10.224<\/p>\n

– S. GARRONI, N. SENES, A. IACOMINI, S. ENZO, G. MULAS, L. PARDO AND S. CUESTA L\u00d3PEZ
\n\u201cAdvanced synthesis on lead-free KNN piezoceramics for medical imaging applications\u201d<\/a><\/b> Physica Status Solidi A- Applications and Materials Science<\/em> 1700896 (15pp) (2018) DOI10.1002\/pssa.201700896<\/p>\n

-KR\u00c4MER, S. ENGEL, N. SANGIORGI, A. SANSON, J. F. BARTOLOM\u00c9 ,S. GR\u00c4F, F. A.M\u00dcLLER
\n\u201cZnO thin films on single carbon fibres fabricated by Pulsed Laser Deposition (PLD)\u201d<\/a><\/b> Applied Surface Science<\/em> Vol. 399, 31, 282-287 (2017) DOI10.1016\/j.apsusc.2016.12.046<\/p>\n

-MOYA, JS; BARTOLOM\u00c9, JF.
\n\u201cTeam develops damage-tolerant, fatigue-resistant, and biocompatible ceramic\u2013metal composite\u201d<\/a><\/b> American Ceramic Society Bulletin<\/em>, 96 (5) 18 (2017)<\/p>\n

-F. BARTOLOM\u00c9 , J. S. MOYA, R. COUCEIRO, C. F. GUTIERREZ, F. GUITI\u00c1N, A. MART\u00cdNEZ-INSUA.
\n\u201cIn vitro and in vivo evaluation of a new zirconia\/niobium biocermet for hard tissue replacement\u201d<\/a><\/b> Biomaterials<\/em> Vol. 76, 313-320 (2016)<\/p>\n

-J. SILVA, J. F. BARTOLOM\u00c9, A. H. DE AZA AND S. MELLO-CASTANHO.
\n\u201cGlass ceramic sealants belonging to BAS (BaO-Al2O3-SiO2) ternary system modified with B2O3 addition: A different approach to access the SOFC seal issue\u201d<\/a><\/b> Journal of European Ceramic Society<\/em> 36, 631-644 (2016)<\/p>\n

-F. BARTOLOM\u00c9, A. SMIRNOV, H.-D. KURLAND, J. GRABOW, F. A. M\u00dcLLER.
\n\u201cNew ZrO2\/Al2O3 Nanocomposite Fabricated from Hybrid Nanoparticles Prepared by CO2 Laser Co-Vaporization\u201d<\/a><\/b> Scientific Reports<\/em> 6, 5, Article number 20589 (2016) DOI: 10.1038\/srep20589<\/p>\n

-ESTEBAN-TEJEDA, A. SMIRNOV, C.PRADO, J.S.MOYA, R.TORRECILLAS, J.F.BARTOLOME.
\n\u201cMultifunctional ceramic-metal biocomposites with Zinc containing antimicrobial glass coatings\u201d<\/a><\/b> Ceramics International<\/em> 42, 6, 7023-7029 (2016)<\/p>\n

-ANTONOV, J. KERS, L. LIIBERT, V. SHULIAK, A. SMIRNOV, J. F. BARTOLOM\u00c9.
\n\u201cEffect of basalt reinforcement type and content on the abrasive wear behaviour of polymer composites\u201d<\/a><\/b> Key Engineering Materials<\/em> Vol. 674, 181-188 (2016)<\/p>\n

-F.A. SANTOS,\u00a0 A.C. SILVA, C. SANTOS, B.G. SIMBA, J.F. BARTOLOM\u00c9, T.DURAN,\u00a0 E. FERNANDEZ-GARCIA, S.O. ROGERO AND\u00a0 S.R.H.\u00a0 MELLO-CASTANHO.
\n\u201cBiocide glass based on Nb2O5-SiO-CaO-Na2O system\u201d<\/a><\/b> Materials Letters<\/em> 183, 15, 277-280 (2016)<\/p>\n

-GUZMAN, E. FERNANDEZ-GARCIA, C.F. GUTIERREZ-GONZALEZ, A. FERNANDEZ, J.L. LOPEZ-LACOMBA, S. LOPEZ-ESTEBAN.
\n\u201cBiocompatibility assessment of spark plasma-sintered alumina-titanium cermets\u201d<\/a><\/b> Journal of Biomaterials Applications<\/em> 30(6) 759\u2013769 (2016). DOI: 10.1177\/0885328215584858<\/p>\n

– M. E. VILLAFUERTE-CASTREJ\u00d3N, E. MOR\u00c1N, A. REYES-MONTERO, R.VIVAR-OCAMPO, J.A. PE\u00d1A-JIM\u00c9NEZ, S.O. REA-L\u00d3PEZ AND L. PARDO.
\n\u201cTowards lead-free piezoceramics: facing a synthesis challenge\u201d<\/a><\/b> Materials<\/em> 9(1), 21(27pp) (2016)<\/p>\n

-FERNANDEZ-GARCIA E., CHEN X., GUTIERREZ-GONZALEZ C.F., FERNANDEZ A., LOPEZ-ESTEBAN S., APARICIO C.
\n\u201cPeptide-functionalized zirconia and new zirconia\/titanium biocermets for dental applications\u201d<\/a><\/b> Journal of Dentistry<\/em> 43 (9) 1162-1174 (2015). DOI: 10.1016\/j.jdent.2015.06.002<\/p>\n

-FERNANDEZ-GARCIA E., GUILLEM-MARTI J., GUTIERREZ-GONZALEZ C.F., FERNANDEZ A., GINEBRA M.-P., LOPEZ-ESTEBAN S.
\n\u201cOsteoblastic cell response to spark plasma-sintered zirconia\/titanium cermets\u201d<\/a><\/b>. Journal of Biomaterials Applications<\/em> 29 (6) 813-823 (2015). DOI: 10.1177\/0885328214547400<\/p>\n

– C.F. GUTIERREZ-GONZALEZ, A. SMIRNOV, A. CENTENO, A. FERN\u00c1NDEZ, B. ALONSO, V.G. ROCHA, R. TORRECILLAS, A. ZURUTUZA AND J.F. BARTOLOME.
\n\u201cWear behavior of graphene\/alumina composite\u201d<\/a><\/b> Ceramics International<\/em> 41, 7434-7438\u00a0 (2015)<\/p>\n

-SMIRNOV, H-DIETER KURLAND, J. GRABOW, F. A. M\u00dcLLER, J. F. BARTOLOM\u00c9
\n\u201cMicrostructure, mechanical properties and low temperature degradation resistance of 2Y-TZP ceramic materials derived from nanopowders prepared by laser vaporization\u201d<\/a><\/b> Journal of European Ceramic Society<\/em> 35, 2685-2691 (2015)<\/p>\n

-CASCALES, N. TABARES, J. F. BARTOLOM\u00c9, A. CERPA, A. SMIRNOV, R. MORENO AND M. I. NIETO.
\n\u201cProcessing and mechanical properties of mullite and mullite-alumina composites reinforced with carbon nanofibers\u201d<\/a><\/b> Journal of European Ceramic Society<\/em> 35, 3613-3621 (2015)<\/p>\n

-F. BARTOLOM\u00c9, A. SMIRNOV, F. SOMMER, F. LANDFRIED AND R. GADOW.
\n\u201cSliding Wear Behavior of ZTA with Different Yttria Stabilizer Content\u201d<\/a><\/b> Journal of the American Ceramic Society<\/em> 98, 12, 3981-3987 (2015)<\/p>\n

-SMIRNOV, and J. F. BARTOLOM\u00c9.
\n\u201cMicrostructure and mechanical properties of ZrO2 ceramics toughened by 5-20 vol.% Ta metallic particles fabricated by pressureless sintering\u201d<\/a><\/b> Ceramics International<\/em> 40, 1B, 1829-184\u00a0 (2014)<\/p>\n

-LOPEZ-ESTEBAN, J.F.BARTOLOME, L.A.DIAZ, L.ESTEBAN-TEJEDA, C.PRADO,R. LOPEZ-PIRIZ, R.TORRECILLAS, and J.S.MOYA.
\n\u201cMechanical performance of a biocompatible biocide soda\u2013lime glass-ceramic\u201d<\/a><\/b> Journal of the Mechanical Behavior of Biomedical Materials<\/em> 34, 302\u2013312 (2014).<\/p>\n

-F. GUTIERREZ-GONZALEZ, E. FERNANDEZ-GARCIA, A. FERNANDEZ, R. TORRECILLAS AND S. LOPEZ-ESTEBAN.
\n\u00abProcessing, spark plasma sintering, and mechanical behavior of alumina\/titanium composites\u201d.<\/a><\/b> Journal of Materials Science<\/em> 49 3823\u20133830 (2014). DOI: 10.1007\/s10853-014-8095-5<\/p>\n

<\/a>Ph.D. thesis<\/span><\/strong><\/span><\/p>\n

Ph.D. theses (last 10 years):<\/strong><\/p>\n

\u201cDesign and evaluation of ceramic\/metal composites for biomedical applications.\u201d ELISA FERN\u00c1NDEZ GARC\u00cdA. UNIVERSIDAD DE OVIEDO. Julio 2014. CALIFICACI\u00d3N: Sobresaliente Cum Laude. Menci\u00f3n de Doctorado Internacional. PREMIO EXTRAORDINARIO DE DOCTORADO 2013-2014, Universidad de Oviedo.<\/p>\n

\u201cDesign and fabrication of new ceramic-metal composites (biocermets) for hard tissue replacement applications\u201d ANTON SMIRNOV. UNIVERSIDAD: AUT\u00d3NOMA DE MADRID. FACULTAD de CIENCIAS. Marzo 2016. CALIFICACI\u00d3N: Sobresaliente Cum Laude<\/p>\n

\u201cDevelopment of lead-free piezoceramics based on potassium sodium niobate (KNN) from mechano-chemically activated precursors\u201d. ANTONIO IACOMINI. UNIVERSIT\u00c0 DEGLI STUDI DI SASSARI (Dipartimenti di Chimica e Farmacia, UNISS), Cerde\u00f1a (Italia). PhD in Chemical Science and Technology. June 2022. Graded: Excellent Cum Laude.<\/p>\n

\u201cDevelopment of ceramic structures under fire conditions from functionalised nanoclays\u201d. MAR\u00cdA LUISA PUERTAS CUADR\u00d3N. UNIVERSIDAD POLIT\u00c9CNICA DE MADRID. ESCUELA INDUSTRIALES. Marzo 2023. CALIFICACI\u00d3N: Sobresaliente Cum Laude.<\/p>\n

\u201dSustainable development of high sensitivity piezoelectric ceramics in The BCZT system for applications in bio-devices\u201d. MARZIA MUREDDU. UNIVERSIT\u00c0 DEGLI STUDI DI SASSARI (Dipartimento di Scienze Chimiche, Fisiche, Matematiche e Naturali, UNISS), Cerde\u00f1a (Italia). PhD in Chemical Science and Technology. June 2024. Graded: Excellent Cum Laude.<\/p>\n

<\/a>Projects<\/span><\/strong><\/span><\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cESTUDIO DE ADECUACI\u00d3N Y OPTIMIZACI\u00d3N DE LOS ADITIVOS BASADOS EN SEPIOLITA PARA LA MEJORA DE PROPIEDADES DE MATRICES POLIM\u00c9RICAS\u201d. Ref. CSIC:122277. EMPRESA: TOLSA. Marzo\u00a0 2013- Febrero 2023. INVESTIGADOR RESPONSABLE: Dr. Jos\u00e9 F. Bartolom\u00e9<\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cESTUDIO REOL\u00d3GICO EN PINTURAS CON DIFERENTES ADITIVOS BASADOS EN SEPIOLITA\u201d. Ref. CSIC: 174857. EMPRESA: TOLSA . Junio\u00a0 2017-Agosto 2017. INVESTIGADOR RESPONSABLE: Dr. Jos\u00e9 F. Bartolom\u00e9.<\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cRECUBRIMIENTOS BIOCIDAS SOBRE PILARES CER\u00c1MICOS EN IMPLANTES DENTALES\u201d. REF. 20131831. EMPRESA: SOCIEDAD ESPA\u00d1OLA DE IMPLANTES. Abril 2013-Abril 2015. INVESTIGADOR RESPONSABLE: J. S. Moya.<\/p>\n

–\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00abESTUDIO \u201cIN VITRO\u201d E \u201cIN VIVO\u201d DE LAS INTERACCIONES BIOLOGICAS EN LA SUPERFICIE DE BIOMATERIALES INORGANICOS PARA APLICACIONES DENTALES\u00bb. MAT2012-38645.\u00a0 Ministerio de Ciencia e Innovaci\u00f3n. Enero 2013- Diciembre 2015. Investigador responsable: Luis Antonio D\u00edaz.<\/p>\n

–\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00abDESARROLLO DE NUEVOS ADITIVOS SIN\u00c9RGICOS Y CERAMIFICANTES PARA RETARDANCIA DE FUEGO BASADOS EN SEPIOLITA (SEPIFIRE)\u00bb RTC-2014-2033-4. Ministerio de Econom\u00eda y Competitividad. Diciembre 2014- Noviembre 2017. Investigador responsable: Jos\u00e9 F. Bartolom\u00e9<\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cDESIGN AND FABRICATION OF NEW CERAMIC-METAL MICRO-NANO HYBRID BIOCOMPOSITE. Acciones conjuntas Hispano-Alemanas 2014 Ref: 57050270. DAAD German Academic Exchange Service en colaboraci\u00f3n con la Fundaci\u00f3n Universidad.es Entidades participantes: Instituto de Ciencia de Materiales de Madrid (CSIC) +\u00a0 Materials Science and Technology (IMT) Friedrich-Schiller-Universit\u00e4t Jena. Enero 2014- Diciembre 2015. Investigador responsable: Jos\u00e9 F. Bartolom\u00e9<\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cESTUDIO DE RECUBRIMIENTOS BIOCIDAS SOBRE SUBSTRATOS MET\u00c1LICOS BASADOS EN VIDRIOS SODOC\u00c1LCICOS\u00bb Proyecto Intramural 201360E012. CSIC. Enero 2013- Diciembre 2014. Investigador responsable: Jos\u00e9 S.\u00a0 Moya.<\/p>\n

–\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 \u201cPIEZOCER\u00c1MICAS ECOL\u00d3GICAS PARA LA GENERACI\u00d3N DE ULTRASONIDOS (ECOPIEZO)\u201c. MINECO. Convocatoria RETOS 2017, MAT2017-86168-R. \u00a0Enero 2018 – Septiembre 2021. Investigador responsable: Lorena Pardo.<\/p>\n

–\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u201cFABRICACI\u00d3N DE FORMAS COMPLEJAS DE CER\u00c1MICAS AVANZADAS POR IMPRESI\u00d3N 3D BASADA EN FOTOPOLIMERIZACI\u00d3N\u201d. Proyecto Intramural Especial (201960E103). Noviembre 2019-Noviembre 2023. Investigadora responsable: Sonia L\u00f3pez Esteban.<\/p>\n

–\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u201cDESARROLLO A BAJA TEMPERATURA DE MATERIALES NANOESTRUCTURADOS DE MATRIZ INORG\u00c1NICA PARA APLICACIONES DE TECNOLOG\u00cdAS AVANZADAS\u00bb. PID2020-119130GB-I00. Ministerio de Ciencia e Innovaci\u00f3n. Septiembre 2021- Agosto 2024. Investigador responsable: Carlos Pecharroman y Mar\u00eda Bel\u00e9n Cabal \u00c1lvarez.<\/p>\n","protected":false},"excerpt":{"rendered":"

Description Experimental techniques Publications Ph.D. thesis Projects The group specialises in the design of new materials with a range of application-specific properties. Particular emphasis is placed on the control of processing parameters in relation to the microstructure and on the development of economically viable and extremely high-performance manufacturing technologies. By…<\/p>\n

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