Dr. De-Ti Wang and Prof. Javier LLorca will carry out a research project in collaboration with the China Scholarship Council (China) to develop high performance fire retardant, halogen-free epoxy nanocomposites by means of molecular design and advanced chemical

Carbon nanotube growth on conventional engineering materials

Drs. Yuwen. Cui and Javier Segurado will carry out a research project in collaboration with the China Scholarship Council (China) to develop a high throughput diffusion multiple technique for screening of phase transformation kinetics in Ti alloys, which will be used

Position: Visiting Scientist (01/07/2013-31/07/2013) Penn State University, USA / Shinshu University, Japan  Research: Synthesis and Properties of Novel Nanocarbons Link to the researcher profile

IMDEA Materials Institute recently joined EURAXESS Service Network so as to provide assistance to incoming and out-going researchers. Learn more about EURAXESS

Position: Proffesor Guangxi University, China Research: DFT/MD of thermoelectric/phase change materials

Position: Lecturer Xiamen University, China Research: Mg alloys

In order to significantly reduce environmental burdens, lightweight metals and alloys play an increasingly important role because of their high specific strength and stiffness, corrosion resistance, and recyclability. Among them, magnesium (Mg), aluminum (Al), and titanium (Ti) alloys are widely

Position: Research Assistant Polytechnic University of Madrid, Spain Research: Multiscale Plasticity Contact: daniel.rodriguez@imdea.org

ITER (acronym of International Thermonuclear Experimental Reactor) is an international nuclear fusion research and engineering project, which is currently building the world's largest experimental tokamak nuclear fusion reactor at the Cadarache facility in the south of France. The ITER project

Dr. Ilchat Sabirov will carry out a research project in collaboration with Ufa State Aviation Technical University (Ufa, Russia) on Nanostructured Al alloys with improved properties. See NANOAL project description

Dr. De-Yi Wang, head of the High Performance Nanocomposites group of IMDEA Materials Institute, has been awarded a prestigious Marie Curie Action: "Career Integration Grant" (CIG) to carry out a four-year research project on design and processing of eco-benign multifunctional fire

Position: Research Assistant University Carlos III of Madrid, Spain Research: Nano-Architectures and Materials Design Contact: luis.herrera@imdea.org

Position: Research Assistant Complutense University of Madrid, Spain Research: Computer simulation of dislocations Contact: monica.prieto@imdea.org

TOLSA S.A. and IMDEA Materials Institute have recently signed a R&D contract to carry out a study on the performance of sepiolite based additives in fire retardant systems. This one year project is led by Dr. De-Yi Wang, head researcher of the High Performance Nanocomposites group.

Position: Visiting Scientist Research: Computational Solid Mechanics PhD: Berkeley, University of California, USA Contact: ignacio.romero@imdea.org

Guanglong Xu has been awarded with a CALPHAD scholarship as a PhD student to give presentation at the coming international conference CALPHAD XLII to be held at San Sebastian (Spain) next May 26-31.

Position: Research Associate University of Alicante, Spain Research: Al and Mg nanocomposites Contact: carmen.cepeda@imdea.org

Silvia Hernandez defended her PhD thesis entitled “Cure, Defects and Mechanical Performance of Fiber-Reinforced Composites” on March 11th at the Civil Engineering School of the Technical University of Madrid (UPM). Her work was awarded the highest grade by the PhD committee. Dr.

Position: Laboratory Technician Contact: marcos.angulo@imdea.org

Position: Research Assistant Carlos III University of Madrid, Spain Research: High Energy Impact on Aeronautical Composite Structures Contact:

Position: Research Assistant Bahonar University of Kerman, Iran Research: Multiscale Modelling of Nanostructured Titanium Contact: hossein.ehteshami@imdea.org

Position: Investigador Predoctoral Complutense University of Madrid, Spain Research: Nanohybrids for Photocatalysis Contact: alicia.moya@imdea.org

Position: Research Associate PhD: Texas Tech University, EEUU Research: Mesoscale Modeling of Microstructure Contact: dongwook.lee@imdea.org

The Metal Physics group, led by Dr. Teresa Pérez-Prado, has succeeded in stabilizing a Li phase with a hexagonal closed packed (hcp) structure at room temperature and 1 atm by the application of pressure to Mg-Li alloys. At atmospheric pressure, pure Li and Li-Mg alloys undergo a bcc to hcp

Nathamar Dudamell defended her PhD thesis, entitled “High strain rate behavior of Magnesium alloys” on December 17th at the Chemistry School of the Complutense University. The work was awarded the highest grade and the “European doctor” label. Dr. Dudamell´s research

Link to the complete new in Media  Speech of the IMDEA Materials Institute Director (54.8 KB) Enlaces a otros medios: Consejería de Educación, Juventud y Deporte elEconomista.es madridiario.es

The Multifunctional Nanocomposites group of IMDEA Materials Institute, led by Dr. Juan José Vilatela, has been awarded a prestigious Marie Curie Action Grant (CIG) to carry out a four-year research project on design and processing of Multifunctional Carbon Nanotube Fibre Nanocomposites. See MUFIN

System employed for melting of a wide range of metals, alloys or special materials under high vacuum, fine vacuum or different gas atmospheres with subsequent casting into moulds or forms. In addition it is equipped with a directional solidification device, which enables growth of single crystals

The 1st IMDEA Materials Institute Scientific Imaging Contest took place on October 1st. Two ex-equo awards were granted to Irene De Diego, who presented a scanning electron micrograph of an advanced high strength steel, and to Hangbo Yue, who participated with an image of a natural flax fiber

Researchers at IMDEA Materials Institute and members of the ESTRUMAT, programme have implemented new high temperature nanomechanical testing techniques. The objective is two-fold. On the one hand, these techniques are necessary to study size effects in the mechanical properties of materials,

to detect and evaluate defects by non-destructive ultrasounds technique. The system finds and determines the size and position of the typical defects in composite materials (voids, delaminations, cracks, etc). Evaluation of state of resin cure, the fiber volume fraction, the condition of the

 Engineering alloys are heterogeneous materials formed by aggregation of grains with different orientation of one or more metallic phases. Plastic deformation occurs by dislocation and/or twinning in each microscopic grain and depends on the grain orientation, size and shape, the stresses

 IMDEA Materials Institute and Airbus Operations SAS based in Toulouse will collaborate in a research project to develop Virtual Testing tools based on Multiscale Modelling techniques. This new R&D contract strengthens IMDEA Materials´ internationalisation strategy. See SIMSCREEN

 IMDEA Materials Institute and State Key Lab of Metal Matrix Composites has recently signed a two years colaboration agreement to promote joint research and development activities in the area of multi-scale modeling for functional materials and composites. In addition, this agreement opens a

 The research project “Neurite: a finite difference continuum model of the electrophysiological-mechanical coupling in neurons under mechanical loading” has been co-supervised by Dr. Antoine Jerusalem and Dr. Jose María Peña of IMDEA Materials Institute and Polytechnic

  Since last July 23th, all research and development activities of IMDEA Materials Institute have been moved to its final site in the Scientific and Technological Park Tecnogetafe, located at sixteen kilometers to the south of Madrid city. The new building has a total floor area of 9,000 m2

The status of Fellow is awarded to members who have contributed significantly to the advancement of mechanics and related fields and it was granted to Prof. LLorca in recognition for his contributions to understand the relationship between microstructure and mechanical properties of materials by

IMDEA Materials Institute y Pennsylvania State University has signed a two years colaboration agreement to promote joint research and development activities in the areas of processing, charaterization and simulation of advanced materials. In addition, this agreement opens a new range of

This instrument allows nanoindentation to be carried out at temperatures up to 750°C, and also in inert environments. The instrument uses both tip and sample heating, ensuring stability for long duration testing, including creep tests. More info ….(+)

IMDEA Materials Institute has designed and fabricated a mechanical stage for carrying out in-situ mechanical tests under X-ray radiation in computer assisted tomography systems. More info ….(+)

Two research groups of IMDEA Materials Institute, Metal Physics and Nanomechanics led by Dr. Teresa Pérez-Prado and Dr. Jon Molina respectively, participate in the ambitious large EU funded EXOMET Project, coordinated by the European Space Agency. This four years project aims at developing new

Dr. Srdjan Milenkovic, head researcher of the Solidification Processing & Engineering group of IMDEA Materials Institute, has been awarded with the prestigious Marie Curie Action (CIG) to carry out a four year research project on design and processing of NiAl-based in situ composites. See

IMDEA Materials has established a collaboration with the above French institutions to co-advise the PhD thesis of Benoit Sklenard on process simulation of the next generation of semiconductor devices.

Instrument used to determine the elastic-viscous behavior of materials, mainly polymers. The machine works in the temperature range of -150 – 600 °C, frequency range of 0.01 – 200 Hz and the maximum force is 18 N. More info ….(+)

  J. J. Vilatela, D. Eder. Nanocarbon Composites and Hybrids in Sustainability: A Review. ChemSusChem, 5, 456-478, 2012. DOI: 10.1002/cssc.201100536

GLOBALFOUNDRIES is the world’s first full-service semiconductor foundry with a truly global footprint. Launched in March 2009, the company has quickly achieved scale as one of the largest foundries in the world, providing a unique combination of advanced technology and manufacturing to more

Machine used to disperse fillers and additives in viscous matrix. The shearing forces to break agglomerate are generated by three hardcrome-plated rollers that rotate at different angular velocities and where gap (minimum 5 µm) and speed setting are controlled electronically. More info

The thesis entitled "Micromechanical Characterization and Simulation of the Effect of Environmental Aging in Structural Composite Materials” represents the first doctoral thesis fully developed at the IMDEA Materials facilities since its research activities started at the beginning of

See project description.

See MODELQP project description

See SUPRA NiAl-LOYS project description.

Site visit to the IMDEA Materials Institute headquarter building, January 10th, 2012

See MAGMAM project description

Researchers at IMDEA Materials Institute are investigating the in-situ deformation of metallic materials using a tensile testing micromachine coupled to a scanning electron microscope (Fig. 1a). This device allows to analyze in real time, the deformation, recrystallization and fracture mechanisms

See VINAT project description

The granted patent, with publication number ES2342962, protects an invention which consists in a new process for the controlled fabrication of the stable beta phase under ambient conditions in the pure metals of group IV of the periodic table (Titanium, Zirconium, Hafnium). The process, which takes

See SELFHEALING project description

The group of Multifunctiional Nanocomposites of IMDEA Materials has started the research project DECOMP. The main idea of the project is to combine polymer matrices (thermoplastics, thermosets and elastomers) and nano-reinforced fillers (layered silicates/clay/carbon nanotubes) to produce

Prof. Allison formerly was a senior technical leader with Ford Motor Co. He is recognized for contributions to automotive casting technology and computational materials engineering. Link to source new (Record Update, University of Michigan)

See Development of carbon nanotube-based epoxy resins for high performance fibre cables project description

See: Semi-cured products manufacturing project description

The work presented “A mechanical model of neuronal growth” is part of his doctoral thesis supervised by Dr. Jerusalem, which is being developed within the framework of the Cajal Blue Brain Project.

See MASTIC project description

For further information visit EUROMAT 2011 Website

See NEWQP project description

Researchers at IMDEA materials Institute are investigating the in-situ deformation of metallic materials using a tensile testing micromachine coupled to a scanning electron microscope (Fig. 1a). This device allows to analyze in real time, the deformation, recrystallization and fracture mechanisms

On June 27th, the kickoff meeting of the European project LIMEDU was held at Celestynow (Poland). The main objective of the project is to develop novel processing routes of high strength ultra-fine grained and nanostructured light metals with increased ductility based on hydrostatic extrusion. The

IMDEA Materials Institute has installed a Digital Image Correlation System (DCI) to perform non-contact full-field displacement mapping by means of images acquired by an optical system of stereographic cameras.

IMDEA Material Institute and AIRBUS Operations has strengthened their scientific partnership with a new R&D contract. The project aims at developing advanced numerical simulations for metallic small fragments impacts on composite fuselage and shields for critical systems protection.

The results presented are part of two doctoral theses that are being carried out at the IMDEA Materials Institute within the framework of various research projects. On the one hand, Marcos Rodriguez presented a new methodology of micromechanical characterization of composite materials which is being

This device alloys to analyze in real time the deformation, recrystallization and fracture mechanisms operative in these materials in different conditions of temperature and strain rate. Thus, it allows to obtain very valuable information regarding the kinetics of all these mechanisms, a difficult

The collaboration between Gamesa and IMDEA Materials Institute within the framework of the AZIMUT project (CENIT programme) has already started. The objective of this collaboration is the development of advanced simulation tools to predict the mechanical behavior of composite materials for wind

Poly p-(phenylene benzobisoxazole) or PBO fibres are highly anisotropic polymeric fibres used in high-performance structural applications owing to their outstanding properties, such as high strength and stiffness as well as low density. The anisotropic fibre structure, which is responsible for the

Dr. Jon M. Molina-Aldareguia, Senior Researcher of the IMDEA Materials Institute and member of the ESTRUMAT network, and Dr. Reyes Elizalde, Senior Researcher of the CEIT in San Sebastián, have been appointed as Invited Editors of a special issue of the Composites Science and Technology

The worldwide demand of improving quality and efficiency of metallurgical processes and decreasing cost of the final products stimulates intensive research to reach these goals. However, large-scale industrial experiments are too expensive and very time-consuming. To decrease the research costs and

The main role of the Scientific Council is to provide advice to the Board of Trustees and to the Director in scientific matters. These include -among others- the evaluation of applications for research positions and of the research performance of the Institute personnel, the elaboration and

On November 11th, the kickoff meeting of the European project VACAST was held at IMDEA Materials facilities. The objective of the project is to develop the next generation of Ni-based superalloy nozzle guide vane (NGV) design and manufacturing capability for low pressure turbines of advanced

IMDEA Materials Institute participates in the FP7 European project RADINTERFACE, which aims at constructing a bottom-up framework (advanced predictive tool) allowing discovery and quantifications of materials damage mechanisms and effects on mechanical properties for novel crystalline materials with

The Computational Mechanics of Materials group of IMDEA Materials Institute leads the European project SIMUCOMP which aims to help design and stress engineers assess the structural integrity and the damage tolerance of lightweight composite structures through provision of new accurate and predictive

The research project “Grain size and temperature effect on mechanical behavior of an aluminum alloy”, have been supervised by the leader of the Physical Simulation Group of IMDEA Materials Institute, Dr. Ilchat Sabirov.

This sixth edition of the CENIT programme, Strategic National Consortiums for Technical Research, has a total budget of 120 million Euros. 30 million will be granted each year to fund the 4-years projects during the period 2010-2013. 156 companies, of which 50,6% are SMEs, and 207 research groups,

Hotnano will work on overcoming the instrumental limitations to apply nanoindentation, nanocmechanics characterization technique, at high temperatures to a range of structural materials, from advanced composites to nanostructured metals and ceramics. Link to Project: HOTNANO.-High temperature

The theses presented were: Interfacial adhesion testing in polymer matrix composites (Genoveva Kelly supervised by Dr. J. Molina); Implementation and calibration of a rate-dependent crystal plasticity constitutive model for Magnesium alloy AZ31B (Julián García supervised by Dr. A.

Carlos Cabeza Barrantes, has been awarded with the FOINDESA 2010 prize for the best EUITA (UPM) bachelor thesis in the Equipments and Aerospace Materials specialty. The project “Nanoindentation for in-situ characterization of composites”, was carried out at IMDEA Materials facilities

Researchers from IMDEA Materials and the Materials Science Department of the Polytechnic University of Madrid (UPM), members of the ESTRUMAT programme (Advanced Structural Materials), participate in the European project MAAXIMUS, which aims to develop new simulation techniques to design aircraft

It's official. President Barack Obama has chosen Massachusetts Institute of Technology Engineering (MIT) Dean Subra Suresh to be the next director of the National Science Foundation (NSF). Prof. Suresh is member of the Board of Trustees and Scientific Council of IMDEA Materials. Link to the complete

By comparison with other metals such as Aluminum or Steel, Magnesium alloys present the remarkable advantage of having a very high specific strength. They are thus becoming increasingly relevant to industries within the automotive or aerospace sectors, as the incorporation of these alloys in

Polymer matrix composites are currently used in many structural applications that require a significant reduction in weight for energy and/or environmental reasons. However, despite all existing information and actual knowledge about these materials, their complex mechanical behaviour (highly

Airbus is already planning its A30X next generation aircraft to replace the A320, the standard Airbus jet airliner for short- to medium-range routes. The aircraft manufacturer has been evaluating new configurations through the European Union-funded Nacre (New Aircraft Concepts Research) project,

El Parque Científico y Tecnológico, Tecnogetafe, donde se ubicará el nuevo edificio es una iniciativa de la Comunidad de Madrid y el Ayuntamiento de Getafe. Con un área de cerca de 1 millón de metros cuadrados, es el Parque Tecnológico más grande de

The objective of this research project, funded by the EXPLORA program of the Spanish Ministry of Science and Innovation (MICINN) is to evaluate the possibility of stabilising, under ambient conditions, high pressure metallic phases by the simultaneous application of compression and shear. The good

This FP7 cooperation project, led by COEXPAIR, aims to combine carbon nanotubes with high-performance carbon fibres to create highly innovative materials for aerospace, train and automotive applications. Link to the project description

IMDEA Materials has signed an agreement with the Transmission Electron Microscopy Laboratory (LABMET) of the Physics Department at the Carlos III University to provide Transmission Electron Microscopy (TEM) characterization of materials. The LABMET has a FEI Tecnai 20 FEG TEM with X-Ray

Professor Llorca has dedicated more that 25 years to research in the field of Materials Science and Engineering. His research activity has been focused on the analysis of the relationship between microstructure and mechanical properties in advanced structural materials. In particular, he has

Link to the complete text: UPM.es

Scientists from Imdea Materials (Metal Physics Group) will carry out experiments at BESSY II (Berlin Synchrotron Radiation Facility) at the Berlin Helmholtz-Center for Materials and Energy. There, synchrotron radiation will be used to measure the internal stresses in omega and beta pure Zr,

The city council of Getafe has communicated that the Technological Park of Tecnogetafe “is already a reality” thanks to the immediate site opening of four companies and one Foundation for Materials Research (IMDEA-Materials). Link to the complete text: ABC.es

The main goal of the new initiative is to develop a new collaboration framework between the companies, universities, technological/research centers interested in promoting the growth and application of advanced materials and nanomaterials. The horizontal approach of the Platform includes within its

Dr. Jerusalem, head of the Computational Mechanics of Materials group, analyze the current situation of the continuum simulations in the materials field. Link to the complete text: Madri+d

IMDEA Materials researchers bring Nanotechnology closer to the audience of the Spanish Public Radio (RNE1) program "En dias como hoy".

The main focus of the ICSMA conferences is to provide a forum to present and discuss the latest research on fundamental aspects of deformation, strength and fracture of all types of materials.

“The main challenge is in the tuning of polymer nanocomposites depending on the application”. Link to the complete text: Madri+d

On 11th of September, the Ministries Council of the Spanish Government authorized the subscription of an agreement among Ministry of Science and Innovation, Madrid Government and the research organization “Fundación IMDEA MATERIALES” for the construction of the Headquarters of the

IMDEA Materials collaborates with AERNNOVA in the development of novel morphing materials for aeronautic applications. Link to Project: Morphing materials for aeronautic applications

On May 28th, the Scientific Council of IMDEA Materials (Madrid Institute for Advanced Studies of Materials) held an important meeting to evaluate and decide the future strategic research lines of the institute. The quasi totality of the members of the Council attended this meeting: Prof. Brian

The Spanish Ministry of Science and Innovation and the Science and Technology Japanese Agency signed the 11th of March an agreement to develop joint research on nanotechnology and new materials oriented to face the environmental challenges and obtain a sustainable development. A Spanish delegation,

Los avances tecnológicos a lo largo de la historia han estado íntimamente ligados a descubrimiento y/o desarrollo de nuevos materiales. La edad de piedra o la del bronce, la revolución del silicio hace unas décadas, etc. son ejemplos evidentes de esta afirmación.

The atoms of metals are organized in ordered structures denominated crystal lattices. The geometry of the latter depends of the nature of the material as well as of temperature and pressure. At room temperature and atmospheric pressure, pure metals like gold, aluminium and copper have cubic

"If Spain wants to get out of the crisis and create employment, the only way is to invest in technology and innovation". Link to the complete text: Madri+d

"Only enterprises investing in technology will survive" Link to the complete text: Madridiario El profesor Javier Llorca, doctor ingeniero de Caminos, es catedrático y responsable del grupo de investigación en “Materiales Estructurales Avanzados y Nanomateriales” de la Universidad

Tras el éxito de la primera jornada del Foro de Ciencia y Tecnología madri+d en Nuevos Materiales y Nanotecnología, la segunda jornada presentará, entre otras, las actividades de los Institutos Madrileños de Estudios Avanzados IMDEA Materiales e IMDEA

The Science and Technology Forum of Madri+d of October is dedicated to the new materials and nanotechnology. The second session of this forum is an excellent opportunity to know the perspectives and new developments on Advanced Materials and Nanoscience. During this session the main research lines

Dr. Teresa Pérez Prado, PhD in Physics, Complutense University of Madrid, 1998. Dr. Pérez Prado joined the University of California in San Diego (UCSD, USA) as a Postgraduate Research Engineer in 1998. She was also hired as a consultant at Oregon State University (USA). In 2001 she

The Director of IMDEA Materials, Prof. Javier Llorca, will be interviewed next September 2nd at 12:45 p.m. in the TV program “Efecto Dominó” in Intereconomía. The interview can be followed at the web site:   http://www.intereconomia.com/es/index.html

Future Fibres is world's leading designer, manufacturer and supplier of unidirectional PBO composite standing rigging for the high performance yachting and superyacht market. Future Fibres has a history of delivering innovation in design, superior composite rigging solutions, unmatched technical

The board of directors of the Centre for the Development of Industrial Technology (CDTI), headed for first time by Cristina Garmendia, Spanish Minister of Science and Innovation, approved on July 29th fourteen research projects in the fourth call of the Programme “National Strategic Consortiums of

IMDEA - Materials is beginning its activities following the successful meetings of the Scientific Committee and of the Board of Trustees. The inauguration of the provisional site of IMDEA-materials, which will be held on October 30th. Dr. Gary Savage, director of operations of Honda Formula 1