604 research outputs found
SenseCam: A new tool for memory rehabilitation?
The emergence of life-logging technologies has led neuropsychologist to focus on understanding
how this new technology could help patients with memory disorders. Despite the
growing number of studies using life-logging technologies, a theoretical framework supporting
its effectiveness is lacking. This review focuses on the use of life-logging in the
context of memory rehabilitation, particularly the use of SenseCam, a wearable camera
allowing passive image capture. In our opinion, reviewing SenseCam images can be effective
for memory rehabilitation only if it provides more than an assessment of prior occurrence in
ways that reinstates previous thoughts, feelings and sensory information, thus stimulating
recollection. Considering the fact that, in memory impairment, self-initiated processes are
impaired, we propose that the environmental support hypothesis can explain the value of
SenseCam for memory retrieval. Twenty-five research studies were selected for this review
and despite the general acceptance of the value of SenseCam as a memory technique, only a
small number of studies focused on recollection. We discuss the usability of this tool to
improve episodic memory and in particular, recollectio
Towards simulations of fuel rod behaviour during severe accidents by coupling TRANSURANUS with SCIANTIX and MFPR-F
Among the applications of the multiscale modelling approach in nuclear fuel rod performance, the coupling of integral thermo-mechanical fuel performance codes with lower-length meso-scale modules is of great interest. This strategy allows to overcome correlation-based approaches with mechanistic ones and test their application in accidental conditions. In this work, we explore the coupling between the TRANSURANUS fuel performance code and two meso-scale modules for fission gas/product behaviour: MFPR-F and SCIANTIX. These modules, coupled within TRANSURANUS, are assessed against the IFA-650.10 loss-of-coolant accident test to analyse their
overall impact and highlight future developments toward mechanistic modelling of fission gas during accident scenarios
Ultrasonic evaluation of friction stir welds and dissimilar intermixing using synthetic aperture focusing technique
Friction stir welding (FSW) is a recently developed solid-state joining process that uses a specially shaped rotating tool to produce lap or butt joints. At the National Research Council, an inter-institute collaboration was started in 2007 with the goal of exploiting the NDE expertise and applying it for the characterization of friction stir welds for various industrial applications. In particular, very good performance was obtained using ultrasonic immersion or laser-ultrasonics combined with the synthetic aperture focusing technique (SAFT) for detecting lack of penetration in butt joints, discontinuities such as wormholes and hooking in lap joints. Dissimilar metal welds of aluminum and magnesium by FSW are also considered for automotive and aerospace applications. Complex vortex flows are produced during the FSW process that may create intercalated lamellar structures with the possible formation of intermetallic compounds, causing variable hardness and degradation in mechanical properties. A modified version of SAFT that takes into account the difference of ultrasonic velocity in the joint between that of Al and Mg has been developed to study the dissimilar intermixing. Welded samples in the butt configuration with different welding speeds and seam offsets are tested using the immersion technique with the modified SAFT. Results will be presented for both defect detection and weld characterization, and the capabilities and limitations will be discussed.La soudure par friction-malaxage (SFM) est un proc\ue9d\ue9 d\u2019assemblage \ue0 l\u2019\ue9tat solide r\ue9cemment d\ue9velopp\ue9 qui fonctionne au moyen d\u2019un outil rotatif de forme sp\ue9ciale et qui sert \ue0 faire des joints de recouvrement ou des joints bout \ue0 bout. Au Conseil national de recherches du Canada, on a commenc\ue9 une collaboration inter-institut en 2007, avec pour objectif l\u2019exploitation de l\u2019expertise en \ue9valuation non destructive et son application pour la caract\ue9risation de soudures par friction-malaxage pour diverses applications industrielles. En particulier, on a obtenu une tr\ue8s bonne performance par immersion dans des ultrasons ou par une technique ultrasonique \ue0 laser combin\ue9e \ue0 la technique de focalisation \ue0 ouverture synth\ue9tique (TFOS) pour la d\ue9tection du manque de p\ue9n\ue9tration dans des joints bout \ue0 bout, de discontinuit\ue9s comme des tunnels ou des crochets dans des joints de recouvrement. Des soudures m\ue9talliques asym\ue9triques d\u2019aluminium et magn\ue9sium par SFM ont aussi \ue9t\ue9 \ue9tudi\ue9es pour des applications automobiles ou a\ue9rospatiales. Au cours du proc\ue9d\ue9 de SFM, des \ue9coulements complexes avec vortex sont produits. Ceci peut conduire \ue0 la cr\ue9ation de structures lamellaires intercal\ue9es avec formation possible de compos\ue9s interm\ue9talliques, provoquant une duret\ue9 variable et une d\ue9gradation des propri\ue9t\ue9s m\ue9caniques. Une version modifi\ue9e de la TFOS qui tient compte de la diff\ue9rence des vitesses ultrasoniques dans Al et Mg dans le joint a \ue9t\ue9 d\ue9velopp\ue9e afin d\u2019\ue9tudier le m\ue9lange asym\ue9trique. On a test\ue9 des \ue9chantillons soud\ue9s bout \ue0 bout avec diff\ue9rentes vitesses de soudage et diff\ue9rents d\ue9ports de soudage au moyen de la technique par immersion avec TFOS modifi\ue9e. Les r\ue9sultats sont pr\ue9sent\ue9s sur le plan de la d\ue9tection de d\ue9faut et de caract\ue9risation de la soudure. On discute des capacit\ue9s et des limites de cette technique.Peer reviewed: YesNRC publication: Ye
Force and energy dissipation variations in non-contact atomic force spectroscopy on composite carbon nanotube systems
UHV dynamic force and energy dissipation spectroscopy in non-contact atomic
force microscopy were used to probe specific interactions with composite
systems formed by encapsulating inorganic compounds inside single-walled carbon
nanotubes. It is found that forces due to nano-scale van der Waals interaction
can be made to decrease by combining an Ag core and a carbon nanotube shell in
the Ag@SWNT system. This specific behaviour was attributed to a significantly
different effective dielectric function compared to the individual
constituents, evaluated using a simple core-shell optical model. Energy
dissipation measurements showed that by filling dissipation increases,
explained here by softening of C-C bonds resulting in a more deformable
nanotube cage. Thus, filled and unfilled nanotubes can be discriminated based
on force and dissipation measurements. These findings have two different
implications for potential applications: tuning the effective optical
properties and tuning the interaction force for molecular absorption by
appropriately choosing the filling with respect to the nanotube.Comment: 22 pages, 6 figure
Detectability of FSW defects with NDE methods
Peer reviewed: YesNRC publication: Ye
A generalization of Snoek's law to ferromagnetic films and composites
The present paper establishes characteristics of the relative magnetic
permeability spectrum (f) of magnetic materials at microwave frequencies.
The integral of the imaginary part of (f) multiplied with the frequency f
gives remarkable properties. A generalisation of Snoek's law consists in this
quantity being bounded by the square of the saturation magnetization multiplied
with a constant. While previous results have been obtained in the case of
non-conductive materials, this work is a generalization to ferromagnetic
materials and ferromagnetic-based composites with significant skin effect. The
influence of truncating the summation to finite upper frequencies is
investigated, and estimates associated to the finite summation are provided. It
is established that, in practice, the integral does not depend on the damping
model under consideration. Numerical experiments are performed in the exactly
solvable case of ferromagnetic thin films with uniform magnetization, and these
numerical experiments are found to confirm our theoretical results. Microwave
permeability measurements on soft amorphous films are reported. The relation
between the integral and the saturation magnetization is verified
experimentally, and some practical applications of the theoretical results are
introduced. The integral can be used to determine the average magnetization
orientation in materials with complex configurations of the magnetization, and
furthermore to demonstrate the accuracy of microwave measurement systems. For
certain applications, such as electromagnetic compatibility or radar absorbing
materials, the relations established herein provide useful indications for the
design of efficient materials, and simple figures of merit to compare the
properties measured on various materials
Non-destructive evaluation of friction stir welds for aerospace applications
Peer reviewed: YesNRC publication: Ye
Is metal theft committed by organized crime groups, and why does it matter?
Using the example of metal theft in the United Kingdom, this study used mixed methods to evaluate the accuracy of police estimates of the involvement of organised crime groups (OCGs) in crime. Police estimate that 20-30% of metal theft is committed by OCGs, but this study found that only 0.5% of metal thieves had previous convictions for offences related to OCGs, that only 1.3% were linked to OCGs by intelligence information, that metal thieves typically offended close to their homes and that almost no metal thefts involved sophisticated offence methods. It appears that police may over-estimate the involvement of OCGs in some types of crime. The reasons for and consequences of this over-estimation are discussed
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