There will be an introductory chapter that will provide the basics of what is needed to be known about pristine nanotubes to understand what is in the subsequent chapters. Each of the chapters that follow the introductory chapter will cover aspects from synthesis to applications, characterization, behavior, properties, and mechanisms. These chapters will focus on heterogeneous nanotubes, doped nanotubes, functionalized nanotubes, coated nanotubes and hybrid nanotubes, respectively, and will be followed by a final concluding chapter.
Re searchers at Stony Brook University, N. They calculate that magnesium oxide MgO can exist in several different compositions. The predicted compounds would be radically different from traditionally known or expected materials.
Metal Matrix Composites: Focus on Alloys and Lattice Dynamics
For details, click here. New technology using low-cost wireless sensors could make it easier to monitor highway bridges and other structures for strain, stress, and early formation of cracks. Springer, R. Aparicio Fernandez, M. Duarte, A.
Kostka, D. Microstructure refinement for high modulus in-situ metal matrix composite steels via controlled solidification of the system Fe—TiB2 Microstructure refinement for high modulus in-situ metal matrix composite steels via controlled solidification of the system Fe—TiB2 Acta Materialia 96 H. Raabe Acta Materialia 96 47 Springer hi[ What is an efficient liquid metallurgy synthesis of Fe—TiB2 high modulus steels? Modeling the static mechanical properties of magneto-sensitive elastomers. Exploration of ternary subsystems of superalloys by high-throughput thin film experimentation.
Experiment and thermodynamic assessment of the Al-Ni-Mo system. Single-crystal nickel-based superalloys developed by numerical multi-criterion optimization techniques based on thermodynamic calculations. New approaches for quantitative analysis of single crystal superalloys based on advanced transmission electron microscopy. First-principles thermodynamics and kinetics of high temperature materials. Can slow-diffusing solute atoms reduce vacancy diffusion in Ni-based superalloys?
Vacancy mobility and interaction with transition metal solutes in Ni. Characterization of Ni- and Co-based superalloys using atom probe tomography. Planar faults energies in multicomponent Co-base superalloys. Partitioning and sublattice preference of alloying additions in Co-Co 3 W system. TCP precipitates in Co-based superalloys studied with atomistic calculations.
Members assembly of the materials department.
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Recent progress in the microstructural understanding of high temperature and low stress creep of single crystal Ni-base superalloys. Initial stage of creep in Ni superalloys: a 3D discrete dislocation dynamics investigation. Modeling precipitate-dislocation interactions in Ni-base superalloys. Characterization and modeling of the propagation of creep dislocations from the interdendritic boundaries in single crystal Ni base superalloys. A meso-scale approach to superalloys microstructure modeling. Ab initio determination of point defects and derived diffusion properties in metals. Simultaneous evolution of microstructure and precipitation - state of the art modelling with MatCalc.
Plasticity in hard materials - testing at small scales and high temperatures. Preparation and characterization of thin film energy materials: photo voltaic, photo synthesis and batteries. Impact of light elements on interface properties in steels. Ab initio basierte Methoden der mechanismen-orientierten Werkstoffentwicklung.
New methods for the mechanical characterization of polymers and the entropy wheel. Ab initio based understanding of the segregation and diffusion mechanisms of hydrogen in steels. Understanding complex materials at finite temperatures by ab inito methods.
Neutron Diffraction Study of Elastoplastic Behaviour of Al/SiCp Metal Matrix Composite
Ab initio based modelling of stacking fault energies in high-strength steels. Tribocorrosion: concepts and applications. Stresses which affect the microstructure of Ni-base superalloys. Thermodynamics of materials up to the melting point: The role of anharmonicities. Environmental TEM study of perovskite electro-catalysts for oxygen evolution.
Seminars and Events
From idealized bi-crystals towards applied polycrystals: In-situ deformation experiments at small dimensions. Synchrotron imaging and diffraction — shedding light on materials behaviour. Fundamentals of ductility and fracture in interface dominated intermetallics. On the effects of ultra-fine grain sizes on martensitic transformations in NiTi shape memory alloys. Mechanical characterization of single phases by means of nanoidentation.
Tracking nanoscale interfaces related mechanisms in materials using advanced transmission electron microscopy. Study of interface chemistry at the atomic level by atom probe tomography. Role of the internal interfaces in solar cells. Site-controlled growth of nanowires induced by focus ion beam.
Neutron Diffraction Study of Elastoplastic Behaviour of Al/SiCp Metal Matrix Composite
Nanostructured iron oxide based composites for photocatalytic hydrogen production. Nanoglasses - the way to new types of non-crystalline solids beyond today's glasses. Evolution of surface regions during high temperature wear. New properties in artificial ferroelectric oxide superlattices. Thermal conductivity in nano-structured materials.
Charge and spin noise in InAs quantum dots. Spectroscopic measurement of the magnetocaloric effect. The kinetics of grain boundary migration below the roughening transition temperature. Atomistic simulations of tribo-induced phase transitions. Skip to the navigation. Skip to the content. Homepage Overview Search A-Z. Materials Research Department. Advanced powder metallurgical methods for fabrication of metal matrix composites with tailored properties Thu Deformation and defects in minerals: insights from atomic-scale simulations Thu Workshop on 2d and hybrid materials Fri Advanced intermetallic titanium aluminides - from fundamentals to application Thu First-principles-based calculations of caloric effects in ferroelectrics and multiferroics Thu Effects of dissolved hydrogen on dislocation velocity in iron: implications for hydrogen enhanced localised plasticity Tue Reverse non-equilibrium molecular dynamics simulations of silicon phononic crystals Fri Fatigue ab initio Thu Developing alloys for service in jet engines Thu Multiphasefield modeling on mesoscopic length scale: Application to martensitic phase transformation and crack propagation Thu Solute segregation and intergranular embrittlement Thu Adaptive isogeometric phase-field modelling of fracture Thu Recent progress in high entropy alloy research Thu Multi-scale modelling of materials processing Mon Friction surfacing and co - unusual joining processes and what we can learn from it Thu Young Materials Researchers Day Mon Models and additive manufacturing, focus on laser cladding process Thu Computer simulations of materials: insight about different scales Thu Splines for discrete crack propagation in a fluid-saturated porous medium Fri Metal powders for additive manufacturing Thu Twin formation, propagation, and intersections at the mesoscale Mon Tailoring microstructures and properties by additive manufacturing Thu Atomistic modeling of solid-state phase transformations in iron Wed Tight binding theory of interstitials in metals Wed The power of entropy in materials discovery Mon Why Phase-Field?
Challenges, breakthroughs and research opportunities for new ultra-high temperature alloys Thu BCC high-entropy alloys: microstructures, mechanical properties and underlying deformation mechanisms Thu Modeling contact between metal surfaces Thu Early stages of oxidation and sulfidation of high-temperature alloys studied by synchrotron X-ray diffraction and absorption techniques Thu First-principles calculation of oxygen self-diffusivity in zirconia Fri New materials for spintronics by ab initio grain boundary engineering Thu Alloy design for laser additive manufacturing: understanding the out-of-equilibrium phase and microstructure formation Thu Nanoporous gold: 3D structural analyses of RVEs and their implication on scaling relations of mechanical behavior Thu Nanostructured surfaces inspired by nature Thu Low energy structural excitations in amorphous solids, and their role in relaxation and plasticity Thu Phase separation and demixing in a temperature gradient - experiments and simulation Thu Phase transformation phenomena in alloys produced by laser additive manufacturing Thu Phase-field simulation of solidification, heat tretment and thermomechanical processing of Ni-base superalloys Thu Mattered ordered by quantum phase fields: Emergent gravity in an dynamic universe Thu Versuch einer Ontologie der physikalischen Welt Thu
Related Metal Matrix Composites: Focus on Alloys and Lattice Dynamics
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