Juan Cornide Arce

Juan Cornide Arce

Juan Cornide, PhD, is Associate Professor at the University Carlos III of Madrid (UC3M). He is Assistant Professor at Carlos III University of Madrid on the Powder Technology Group (GTP) in the Department of Materials Science and Engineering. He earned his Ph.D. in Materials Science and Engineering at Complutense University of Madrid in 2012 for the Thesis entittled “Advanced Bainitic Steels: Transformation mechanism and Mechanical Properties” performed in CENIM-CSIC. During his PhD he enjoyed two internships in Tohoku University and Oak Ridge National Laboratory. He was post-doc at University of Rouen (2012-2015) being involved in AccMet European Project.

His research topics include advanced characterisation techniques (Atom Probe Tomography, Transmission Electron Microscopy, Electron Backscattered Diffraction), high entropy alloys, nanostructured steels and phase transformations in steels. He has participated in different European projects as well as contracts with the industry and he is co-author of more than 20 papers in indexed journals.

Publications

• U. Dahlborg, J. Cornide, T. Hansen, A. Fitch, Z. Leong, S. Chambreland, R. Goodall, “Structure of some CoCrFeyNi and CoCrFeNiPdx multicomponent HEA alloys by diffraction techniques” submitted to Journal of Alloys and Compounds. 
• J. Cornide, U. Dahlborg, Z. Leong, L. Asensio Dominguez, J. Juraszek, S. Jouen, T. Hansen, R. Wunderlich, S. Chambreland, I. Todd, R. Goodall, M.Calvo-Dahlborg, “Structure and properties of some CoCrFeNi-based High Entropy Alloys”.
• DOI: 10.1002/9781119093466.ch139.
• J. Cornide, M. Calvo-Dahlborg, S. Chambreland, L. Asensio Dominguez, Z. Leong, U. Dahlborg, A. Cunliffe, R. Goodall, I. Todd, “Combined Atom Probe Tomography and TEM investigations of CoCrFeNi, CoCrFeNi-Pdx (x=0.5, 1.0, 1.5) and CoCrFeNi-Sn”, Acta Physica Polonica A vol. 128 (2015) pp 557-560.
• C. Garcia-Mateo, F.G. Caballero, T. Sourmail, J. Cornide, V. Smanio and R. Elvira, “Composition Design of Nanocrystalline Bainitic Steels by Diffusionless Solid Reaction”, Metals and Materials International., Vol. 20, No. 3 (2014), pp. 405-415.
• F.G. Caballero, Hung-Wei Yenb, M.K. Miller, J. Cornide, Hsiao-Tzu Chang, C. Garcia-Mateo, Jer-Ren Yang “Three phase crystallography and solute distribution analysis during residual austenite decomposition in tempered nanocrystalline bainitic steels”, Materials Characterization, Vol. 88 (2014) pp 15-20.
• J. Cornide, C. García-Mateo, C. Capdevila and F.G. Caballero, “An assessment of the contributing factors to the nanoscale structural refinement of advanced bainitic steels”, Journal of Alloys and Compounds, Vol. 577 (2013) pp 43-47.
• F.G. Caballero, M.K. Miller, C. García-Mateo and J. Cornide, “New experimental evidence of the diffusionless transformation nature of bainite”, Journal of Alloys and Compounds, Vol. 577 (2013) pp 43-47.
• F.G. Caballero, M.K. Miller, C. Garcia-Mateo; J. Cornide and .M.J. Santofimia, “Temperature dependence of carbon supersaturation of ferrite in bainitic steels” Scripta Materialia, Vol. 67, Issue 10, (2012), pp 846-849.
• F.G. Caballero, Hung-Wei Yen, M.K. Miller, Jer-Ren Yang, J. Cornide, and C. Garcia-Mateo, “Complementary use of transmission electron microscopy and atom probe tomography for the examination of plastic accommodation in nanocrystalline bainitic steels”, Acta Materialia, Vol. 59, Issue 15 (2011) pp.6117-6123
• J. Cornide, G. Miyamoto, F.G. Caballero, T. Furuhara, M.K. Miller and C. García-Mateo “Distribution of dislocations in nanostructured bainite”. Solid state Phenomena, Vol 172-174 (2011), pp 117-122.

Projects

Participation in projects funded from national or international agencies

Accelerated Metallurgy - the accelerated discovery of alloy formulations using combinatorial principles (AccMet)

• Sponsor: 7th Framework Programme of the European Commission (FP7-NMP).
• Participants: more than 30 academic and industrial partners coordinated by the European Space Agency.
• Reference: NMP-2010-4.0-3

Complementary use of transmission electron microscopy (TEM) and atom probe tomography (APT) for carbide characterization in a nanocrystalline bainitic steels at the early stage of tempering

• Sponsor: Shared Research Equipment (SHaRE) User Program. Office of Basic Energy Sciences, U.S. Department of Energy.
• Participants: CENIM – CSIC (Spain), Oak Ridge National Laboratory (USA).
• Reference: 2011_CaballeroFG_45

Novel nanostructured bainitic steel grades to answer the need for high performance steel components

• Sponsor: RFCS Programme (Commission of the European Communities)
• Participants: Ascometal (France), ALD (Germany), Bosch (Germany), CENIM-CSIC (Spain), Luleå University of Technology (Sweden), Metso Materials Technology Oy (Finland) and Sidenor I+D (Spain)
• Reference: RFS-PR-07006

New advanced ultra high strength bainitic steels: ductility and formability

• Sponsor: RFCS Programme 2007 (Commission of the European Communities)
• Participants: CENIM-CSIC (Spain), Arcelor Research SA (France), Luleå University of Technology (Sweden), Gestamp HardTech AB (Sweden), Linde+Wiemann GmbH (Germany), Rautaruukki Oyj (Finland) and University of Oulu (Finland)
• Reference: RFS-PR-07001

 

Participation in research contracts with industry

Strengthening mechanisms of continuously cooled bainitic steels (11/2009-12/2010)

• Company: ASCOMETAL S.A. (France)

Microstructure characterization of low temperature bainitic steel: a crystallographic orientation analysis (08/2009-07/2010)

• Company: Swiss Steel (Switzerland)

Microstructure and toughness of bainitic steels (01/2009-06/2009)

• Company: Swiss Steel (Switzerland)

The determination of chemical composition at ferrite/austenite interface by STEM microanalysis after the isothermal transformation temperatures and characterization of microstructures obtained in three steels after different non-isothermal heat treatments. (12/2008 – 05/2009)

• Company: Toyota Motor Central (Japan)

Microstructural characterization of bainitic steels (07/2008-12/2008)

• Company: Swiss Steel (Switzerland)

Teaching

Universidad Carlos III de Madrid

Department of Materials Science and Engineering and Chemical Engineering

• Chemical Basis of Engineering. 1st course in Electronic and Automatic Industrial Engineering.
• Environmental Technology. 2º course in Mechanical and Electronic Industrial Engineering.