1,309 research outputs found
Patient-specific cardiovascular superelastic NiTi stents produced by laser powder bed fusion
To date, there is a general lack of customizability within the selection of endovascular devices for catheter-based vascular interventions. Laser powder bed fusion (LPBF) has been flexibly exploited to produce customized implants using conventional biomedical alloys for orthopedic and dental applications. Applying LPBF for cardiovascular applications, patient-specific stents can be produced with small struts (approximately 100-300 µm), variable geometries, and clinically used metals capable of superelastic behaviour at body temperature (eg. equiatomic nickel-titanium alloys, NiTi). Additionally, the growing availability and use of patient-specific 3D models provides a unique opportunity to outline the necessary manufacturing process that would be required for customizable NiTi devices based on patient geometry. In order to fulfil the potential of the patient-specific superelastic stents, process and design know-how should be expanded to the novel material and fine details at the limits of conventional LPBF machines. In this work, a framework for developing a patient-specific superelastic NiTi stent produced by LPBF is demonstrated. At a proof-of-concept stage, the design procedures are shown in a geometry similar to the artery. The stents with 100 µm nominal strut diameter are later produced with a Ni50.8Ti49.2 powder and heat treated. The results confirm the possibility of producing stents with a design suitable for highly complex patient-specific anatomies and having superelastic behavior at body temperature
A água: distribuição, regulamentação e uso na agricultura, com enfase ao arroz irrigado.
bitstream/item/45267/1/documento-250.pd
Federalism and Beyond: The Uncertain Nature of Federal/State Relationships in a Restructuring World
Federalism in the restructuring context has certainly been controversial and filled with uncertainty -- some would say perilous. Some would say the shifts in jurisdiction between federal and state governments are so serious and of such concern that we should really pause before restructuring the electric industries. Some say we have not done the right thing in the telecommunications industry either. This area is certainly filled with potential for competitors and for lawyers. To help us sort it out, we have four distinguished panelists who are going to identify some of the key state/federal jurisdictional issues in the telecommunications and electric industries - how those issues are being resolved and how they are likely to be resolved in the future. And because the telecommunications industry is further along than electricity, we are going to start with those panelists first
Supersymmetric AdS vacua and separation of scales
The moduli space of the supersymmetric massive IIA AdS4xS2(B4) vacua, where
S2(B4) is a two-sphere bundle over a four-dimensional Kaehler-Einstein base B4,
includes three independent parameters which can be thought of as corresponding
to the sizes of AdS4, B4 and the S2 fiber. It might therefore be expected that
these vacua do not suffer from the absence of scale separation. We show that
the independence of the geometric moduli survives flux quantization. However,
we uncover an attractor behavior whereby all sizes flow to equality in some
neighborhood of spacetime independently of the initial conditions set by the
parameters of the solution. This is further confirmed by the study of the ratio
of internal to external scalar curvatures. We also show that the asymptotic
Kaluza-Klein spectrum of a ten-dimensional massive scalar is governed by a
scale of the order of the AdS4 radius. Furthermore we point out that the
curvature ratio in supersymmetric IIA AdS4 vacua with rigid SU(3) structure is
of order one, indicating the absence of scale separation in this large class of
vacua.Comment: 21 pages, 2 figures; v2 typos correcte
Biodegradable magnesium coronary stents: Material, design and fabrication
Biodegradable cardiovascular stents in magnesium (Mg) alloys constitute a promising option for a less intrusive treatment, due to their high compatibility with the body tissue and intrinsic dissolution in body fluids. The design and fabrication aspects of this medical device require an integrated approach considering different aspects such as mechanical properties, corrosion behaviour and biocompatibility. This work gathers and summarises a multidisciplinary work carried out by three different research teams for the design and fabrication of Mg stents. In particular, the paper discusses the design of the novel stent mesh, the deformability study of the Mg alloys for tubular raw material and laser microcutting for the realisation of the stent mesh. Although, the results are not fully validated as the device has not been fully tested, they show the feasibility of the used approaches, as the first prototype stents in Mg alloy were produced successfully. © 2013 Copyright Taylor and Francis Group, LLC
K-Shell Photoabsorption Studies of the Carbon Isonuclear Sequence
K-shell photoabsorption cross sections for the isonuclear C I - C IV ions
have been computed using the R-matrix method. Above the K-shell threshold, the
present results are in good agreement with the independent-particle results of
Reilman & Manson (1979). Below threshold, we also compute the strong 1s -> np
absorption resonances with the inclusion of important spectator Auger
broadening effects. For the lowest 1s -> 2p, 3p resonances, comparisons to
available C II, C III, and C IV experimental results show good agreement in
general for the resonance strengths and positions, but unexplained
discrepancies exist. Our results also provide detailed information on the C I
K-shell photoabsorption cross section including the strong resonance features,
since very limited laboratory experimental data exist. The resultant R-matrix
cross sections are then used to model the Chandra X-ray absorption spectrum of
the blazar Mkn 421
String interactions and discrete symmetries of the pp-wave background
Free string theory on the plane-wave background displays a discrete Z2
symmetry exchanging the two transverse SO(4) rotation groups. This symmetry
should be respected also at the interacting level. We show that the zero mode
structure proposed in hep-th/0208148 can be completed to a full kinematical
vertex, contrary to claims appeared in the previous literature. We also comment
on the relation with recent works on the string-bit formalism and on the
comparison with the field theory side of the correspondence.Comment: Proceeding of the 35th Symposium Ahrenshoop Aug 2002 and the Leuven
RTN-workshop Sept 200
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