1,452 research outputs found
Fabricación de aleaciones ligeras de Titanio y Aluminio por metalurgia de polvos
La UC3M desarrolla aleaciones ligeras de Titanio y Aluminio mediante técnicas pulvimetalúrgicas permitiendo adaptar las composiciones y propiedades a aplicaciones específicas. Sectores como la automoción requieren el empleo de materiales con propiedades mejoradas que aúnen resistencia mecánica, buen comportamiento al desgaste y corrosión disminuyendo el peso de los componentes fabricados a partir de los metales tradicionalmente empleados. Para su implantación es clave la colaboración de empresa
Manufacturing of Titanium and Aluminium Light alloys by powder metallurgy
The Group of Powder Technology (GTP) of the University Carlos III has a wide experience in the development and processing of new materials by Powder Metallurgy (PM).
The mechanical alloying (MA) process, or high energy milling, allows the attainment of powders with compositions impossible to produce by other techniques, with improved properties for structural applications, where mechanical properties are the main requirement, and for applications where other specific properties are needed.
The identification of the specific needs of interested industrial sectors is a critical point in this development
Development of new materials by high energy milling
The Group of Powder Technology (GTP) of the University Carlos III has a wide experience in the development and processing of new materials by Powder Metallurgy (PM).
The mechanical alloying (MA) process, or high energy milling, allows the attainment of powders with compositions impossible to produce by other techniques, with improved properties for structural applications, where mechanical properties are the main requirement, and for applications where other specific properties are needed.
The identification of the specific needs of interested industrial sectors is a critical point in this developmen
Low-Cost α+β PM Ti Alloys by Fe/Ni Addition to Pure Ti
Ti and its alloys can deliver a very interesting combination of properties such as low density, high strength, corrosion resistance and biocompatibility and, therefore, are very flexible materials which can be adapted to various applications. Nonetheless, Ti and Ti alloys are only employed in critical applications (i.e. aeronautical and aerospace, nautical, medical, etc.) or in products for leisure. In both of these cases the higher fabrication costs of Ti in comparison to its competitors (i.e. steel and aluminium) is not the limiting factor as it is for many structural applications, especially for mass production (i.e. automotive sector). The use of creative techniques and the decrement of the starting price of Ti have been identified as the two main routes to follow to decrease the fabrication costs. In this study, the production of low-cost α+β Ti alloys has been assessed by combining the addition of cheap alloying elements (in particular a Fe/Ni powder) with the classical powder metallurgy route (pressing and sintering). Physical and mechanical properties as well as microstructural analysis of these low-cost alloys were measured and correlated to the processing parameters used to sinter them. It is found that the low-cost Ti alloys show similar behaviour to conventional α+β Ti alloys and, thus, have the potential to be used for non-critical applications
Investigation of the factors influencing the tensile behaviour of PM Ti-3Al-2.5V alloy
Titanium, a relatively new engineering metal, has been employed principally in high demanding industries due to its high final cost and it is well known for its biocompatibility. Powder metallurgy (PM) techniques could offer the possibility to reduce the production cost without paying it in terms of mechanical properties, thanks to their intrinsic advantages. In this study the Ti-3Al-2.5V titanium alloy was produced considering two powder production routes and sintered under different temperatures in order to address their feasibility as alternative to the wrought alloy. The results indicate that PM Ti-3Al-2.5V alloys studied have comparable mechanical behaviour as their counterpart obtained by conventional metallurgy and, therefore, are potential candidates to fabricate cheaper titanium products for structural applications as well as biomedical devices. © 2014 Elsevier B.V.The authors want to acknowledge the financial support from
the Spanish Ministry of Science through the R&D Projects
MAT2009-14448-C02-02 and MAT2009-14547-C02-02, and from
Regional Government of Madrid through the ESTRUMAT (S2009/
MAT-1585) projectPublicad
Negative ternary set-sharing
The Set-Sharing domain has been widely used to infer at compiletime interesting properties of logic programs such as occurs-check reduction, automatic parallelization, and flnite-tree analysis. However, performing abstract uniflcation in this domain requires a closure operation that increases the number of sharing groups exponentially. Much attention has been given to mitigating this key inefflciency in this otherwise very useful domain. In this paper we present a novel approach to Set-Sharing: we define a new representation that leverages the complement (or negative) sharing relationships of the original sharing set,
without loss of accuracy. Intuitively, given an abstract state sh\> over the finite set of variables of interest V, its negative representation is p(V) \ shy. Using this encoding during analysis dramatically reduces the number of elements that need to be represented in the abstract states and during abstract uniflcation as the cardinality of the original set grows toward 2 . To further compress the number
of elements, we express the set-sharing relationships through a set of ternary strings that compacts the representation by eliminating redundancies among the sharing sets. Our experiments show that our approach can compress the number of relationships, reducing signiflcantly the memory usage and running time of all
abstract operations, including abstract uniflcation
Flexural Properties, Thermal Conductivity and Electrical Resistivity of Prealloyed and Master Alloy Addition Powder Metallurgy Ti-6Al-4V
A comparison between the properties achievable by processing the Ti&-6Al&-4V alloys by means of two powder metallurgy approaches, precisely prealloyed and master alloy addition, was carried out. Prealloyed and master alloy addition hydride&-dehydride powders characterised by an irregular morphology were shaped by means of cold uniaxial pressing and high vacuum sintered considering the effect of the variation of the sintering temperature and of the dwell time. Generally, the higher the temperature and the longer the dwell time, the higher the relative density and, consequently, the better the mechanical performances. Nevertheless, a higher processing temperature or a longer time leads also to some interstitials pick-up, especially oxygen, which affects the mechanical behaviour and, in particular, lowers the ductility. Although some residual porosity is left by the pressing and sintering route, mechanical properties, thermal conductivity and electrical resistivity values comparable to those of the wrought alloy are obtained.The authors want to acknowledge the financial support from Regional Government of Madrid through the ESTRUMAT (S2009/ MAT-1585) project and from the Spanish Ministry of Science through the R&D Projects MAT2009-14547-C02-02 and MAT2009-14448-C02-02. The authors want also to thanks the Fraunhofer IFAM-Dresden Institute for the measurements of the thermal conductivity and electrical resistivityPublicad
Medición y análisis del desplazamiento entre el fotocentro y el agujero negro supermasivo de M87
It is generally assumed that supermassive black holes (SBHs) reside at the centers of their
host galaxies. However, there are several mechanisms that seem capable of displacing the
SBH from its equilibrium position. Most recently, interest has focused on gravitational recoil
resulting from the coalescence of a SBH–SBH binary. Other possibilities include a sustained
acceleration due to intrinsic asymmetries in jet power, orbital motion of SBH binaries and
interactions with massive perturbers such as globular clusters or massive molecular clouds.
Over the past years, there have been many researches to seek displaced SBH candidates.
It was reported in Batcheldor et al. (2010) [1] that the photocenter of NGC4486 (M87)
and the AGN are displaced significantly. The displacement was confirmed by Lena et al.
(2014) [2] and this fact suggests that the SBH is not located at the center of mass of the
galaxy. Nevertheless, in Lena et al. (2014) [2] the results from some images differ significantly
from the others, and the origin of these differences is unclear. The active giant elliptical M87
is a reference to the study of jets in AGNs, and an explanation of these results is essential to
understand the evolution of this galaxy. Under these circumstances, we aim to investigate
whether M87 presents a displaced SBH or not, and also to evaluate the possible explanations
to the discrepancies.
Our method consists of measuring the relative positions of the AGN point source and the
photocenter of the galaxy, assuming that the former marks the SBH position and the latter
marks the minimum of the galactic potential. Similarly to previous studies, we perform a
standard photometric analysis by means of isophotal fitting to locate the photocenter. In
order to do that, we have analyzed several images with the task ellipse within the astronomical
software IRAF. Besides, we adjusted gaussians along the x and y axis to compute
the position of the point nuclear source. The data selected for this study consisted of seven
images with high angular resolution and red filters (from 0.8 to 2.2 µm). Five of them are
from the Hubble Space Telescope, taken with the Advanced Camera for Surveys, the Wide
Field Planetary Camera 2 and the Wide Field Camera 3. The remaining images were taken
with NaCo in the Very Large Telescope. These images were taken on different dates, which
allows a temporal examination of the results. Since the jet of M87 is visible in all the images,
a mask was created before the analysis in order to minimize the photometric irregularities
associated with the knots of the jet.
The results from the photometric analysis show that the displacement varies in amplitude
and direction depending on the image. There are several images in which the position of the
photocenter is consistent with the AGN and others that show a relative displacement ≥ 50
mas. The maximum displacement of the photocenter relative to the AGN is ≈100 mas, and
is in agreement with the results obtained by the previous studies [1] and [2]. It is remarkable
that these discrepancies are similar to those from Lena et al [2]., but obtained from different
images.
On the other hand, we observe that the photocenter position depends on the semimajor
axis length (SMA) of the galaxy used in the isophotal fitting. The displacements obtained
within a radius between 100 and 300 from the centre (range used by Lena et al. [2] and
Batcheldor et al. [1]) vary in amplitude but are roughly aligned in the same direction as
the jet, implying that the SBH is displaced in the counter-jet direction. In a wider range of
SMA, the photocenter displacement of each image decreases in amplitude and its position
angle separates from the jet direction.
In order to compare the positions of both the AGN and the photocenter from all of the
images (obtained with different instruments and filters), we define a common reference frame
by means of several globular clusters that appear in every image analyzed . This comparison
indicates that the differences in the displacements obtained for each image are due largely
to differences in the positions of the photocenters. This result implies that the mechanisms
that were thought as the origin of the displaced SBH are no longer valid in this case, as the
AGN remains fairly stable within a precision of 13 x 10 mas2.
In an attempt to explain these discrepancies we notice that almost every image that shows
a displacement of the photocenter was taken in the same period of time, and that it coincides
with a huge and well studied outburst that occurred between 2003 and 2007. This outburst
caused an increase of the flux density in the nucleus and in the HST-1 knot (at ≈ 0.8500
from the nucleus) along the entire wavelength range. We believe that this event is capable
of affecting the isophotal fitting, and it could explain the discrepancies in the results of the
different images and between the different ranges of SMA. However, we analyzed an image
from 1998 that also presents an offset of about 100 mas that is not well explained with a flux
variability in M87 nucleus that year.
There is also evidence of instabilities in photocenter positions in other galaxies in the
bibliography. Anton et al. (2012) [3] observed a set of selected AGNs and reported that
photocenter jitters at mas level, accompanied by flux variation. According to them, those
jitters translate from few parsecs (in most of the objects), to tens of parsec. They discussed
possible origins for such photocenter displacements and concluded that in the case of “jetted”
objects, enhancements in flux due to shocks along the jet, or the appearance of a new
blob of plasma are natural candidates. Furthermore, the study of Popović et al.(2012) [4]
revealed that perturbations in the quasar inner structure can cause a significant offset to
the photocenter by up to several mas. The similarity of these conclusions with our results
supports the theory that the instability of the photocenter is due to an additional contribution
of light that comes from the jet.
In conclusion, we determine that the most likely origin of the displacement between the
photocenter and the SBH -found in this study and also in previous references- is a consequence
of an instability of the photocenter caused by the intrinsic variability of M87
- …