Our colleague María Teresa Pérez Prado and other women in science explain what they do to improve our lives in this interview recorded by cadena SER at IMDEA Energy as part of the International Women’s Day 2021.
IMDEA Materials offers a mature, fully stand-alone technology able to predict the mechanical response of an engineering alloy as function of its microstructure [1]. This technology is able to provide the anisotropic elastic properties and stress-strain elastoplastic curves, the creep
Titanium aluminum nitrides (TiAlN) are currently the most versatile coatings in terms of performance with various applications in industry: as wear-resistant coatings for cutting tools; for increasing productivity in die casting, reducing soldering and retarding fire cracks; for plastic processing,
Current trends to reduce weight, energy consumption and improve functionality are leading to new materials with complex microstructures, whose behavior can only be understood from the synergetic contribution of processes occurring at multiple length scales (from nm to m). Examples
IMDEA Materials has developed technologies to manufacture scaffolds made of biodegradable polymers (PCL, PLA, PLGA, etc), biodegradable metals (Mg and Zn) and their composites for tissue engineering (see Fig. 1 below). The main advantage of this technology is that it
IMDEA Materials has developed a physical simulation tool to predict joinability of dissimilar metallic materials with different melting points. Very small samples of the actual dissimilar materials are subjected to the same thermal and mechanical profiles in a thermo-mechanical simulator
IMDEA Materials has developed technologies for ultrafast processing of advanced metallic materials in a thermo-mechanical simulator (GLEEBLE 3800). They allow to precisely control the thermo-mechanical processing at high heating/cooling rates, as well as at high strain rate plastic deformation. Ultrafast
Europe’s commitment to reach carbon neutrality by 2050 is strongly pushing renewable energy sources and hydrogen has emerged as a versatile and environmentally friendly mean to store and transport clean energy. The large-scale usage of hydrogen has prompted new challenges
IMDEA Materials is working on new battery materials that combine electrochemical integrity and enhanced fire safety. Fig. 1 below shows a fully solid-state battery based on a HKUST-1 MOF modified electrolyte with simultaneously improved electrochemical performance and fire safety was
One Marie Skłodowska-Curie Individual Fellowship has been awarded to our center in call 2020, and 2 more are very high in the reserve list. A total 7 proposals were submitted by our center. They have received marks in the range
IMDEA Materials can design and prepare novel Phase Change Materials (PCMs) for thermal energy storage applications that: are prepared in an easy and green pathway and, at the same time, have high mechanical performance, fire safety, form stability, phase transition
Javier LLorca talks about new materials for bone prosthesis in the RTVE radio program “El laboratorio de JAL” devoted to science dissemination pills. Follow the link and listen up the first pill to find out more about this hot research
Due to the rapid growth in the use of composite materials, environmental concerns have become an increasingly influential topic, making recyclability of composite materials a key issue. Furthermore, several related EU laws have been passed to minimize the environmental impact
As part of its strategic initiative on damage-tolerant additive manufacturing, IMDEA Materials develops a suite of physics-based computational models and simulation tools aimed at linking processing, microstructures and properties, in order to accelerate the discovery and deployment of new alloys
Manufacturing in the EU is crucial, given that it is one of the main drivers in innovation, job creation and sustainable growth. It involves almost 2,000,000 companies that provide approximately 28.5 million jobs. Therefore, its impact is significant in terms
Javier Llorca, head of the Mechanics of Materials group, talks in the program “Marca España” from RNE about bioresorbable 3D printed scaffolds for bone regeneration. You can listen to the interview here (starting at minute 3:50)
The doctoral thesis of Jingya Wang, entitled “High throughput investigation of diffusion and solid solution hardening of HCP Mg alloys”, has obtained the Award of the Technical University of Madrid to the best doctoral thesis. The thesis was advised by
ITP Aero and IMDEA Materials collaborate in an R&D program named ENVIDIA, whose goal is the development of software capable of simulating the production of aeronautic components by additive manufacturing technologies. The activities in this program began in mid 2018,
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C/ Eric Kandel, 2
Tecnogetafe
28906, Getafe, Madrid (Spain)