2,477 research outputs found
A Full-Scale Evaluation of Lightweight Personal Protective Ensembles for Demining in Providing Protection Against Blast-Type Anti-Personnel Mines
A wide range of equipment, in the form of helmets, vests, aprons and trousers, is currently in use around the world to protect deminers against the effects of AP mines. Significant variations exist in terms of the level of protection afforded, operational usefulness, quality of manufacturing and cost of each of these components. To date, there have been limited studies undertaken to systematically and quantitatively assess the effectiveness of the different protective components applied to both the civilian and military demining theaters. This study summarizes the efforts of numerous full-scale test series carried out in 1999, with particular emphasis on quantifying the protective performance against blast AP mines of selected concepts of humanitarian demining ensembles. It was also possible to assess aspects of the blast and related fragmentation resistance of individual components
Resonance Raman Characterization of the Peroxo and Hydroperoxo Intermediates in Cytochrome P450
Resonance Raman (RR) studies of intermediates generated by cryoreduction of the oxyferrous complex of the D251N mutant of cytochrome P450cam (CYP101) are reported. Owing to the fact that proton delivery to the active site is hindered in this mutant, the unprotonated peroxo-ferric intermediate is observed as the primary species after radiolytic reduction of the oxy-complex in frozen solutions at 77 K. In as much as previous EPR and ENDOR studies have shown that annealing of this species to ∼180 K results in protonation of the distal oxygen atom to form the hydroperoxo intermediate, this system has been exploited to permit direct RR interrogation of the changes in the Fe−O and O−O bonds caused by the reduction and subsequent protonation. Our results show that the ν(O−O) mode decreases from a superoxo-like frequency near ∼1130 cm−1 to 792 cm−1 upon reduction. The latter frequency, as well as its lack of sensitivity to H/D exchange, is consistent with heme-bound peroxide formulation. This species also exhibits a ν(Fe−O) mode, the 553 cm−1 frequency of which is higher than that observed for the nonreduced oxy P450 precursor (537 cm−1), implying a strengthened Fe−O linkage upon reduction. Upon subsequent protonation, the resulting Fe−O−OH fragment exhibits a lowered ν(O−O) mode at 774 cm−1, whereas the ν(Fe−O) increases to 564 cm−1. Both modes exhibit a downshift upon H/D exchange, as expected for a hydroperoxo-ferric formulation. These experimental RR data are compared with those previously acquired for the wild-type protein, and the shifts observed upon reduction and subsequent protonation are discussed with reference to theoretical predictions
The Effectiveness of Different Personal Protective Ensembles in Preventing Injury to the Thorax from Blast-Type Anti-Personnel Mines
It is well established from numerous documented cases of bomb blasts that, under certain conditions (determined by the amount and proximity of explosive), the transmitted shock wave and associated overpressure generated by the detonation of an explosive device can cause critical and fatal injuries to the thorax, e.g., “blast lung.” As such injuries tend to be internal and thus difficult to detect, there has been considerable debate in recent years on the significance of the blast overpressure injury in the context of demining/mine clearance compared to more visible injuries, such as, amputation of extremities, fragmentation wounds and blindness. A wide range of personal protective ensembles are currently deployed in the field, incorporating disparate stackings of materials over the thoracic region
Joint thrust and TMD resummation in electron-positron and electron-proton collisions
We present the framework for obtaining precise predictions for the transverse
momentum of hadrons with respect to the thrust axis in collisions.
This will enable a precise extraction of transverse momentum dependent (TMD)
fragmentation functions from a recent measurement by the Belle Collaboration.
Our analysis takes into account, for the first time, the nontrivial interplay
between the hadron transverse momentum and the cut on the thrust event shape.
To this end, we identify three different kinematic regions, derive the
corresponding factorization theorems within Soft Collinear Effective Theory,
and present all ingredients needed for the joint resummation of the transverse
momentum and thrust spectrum at NNLL accuracy. One kinematic region can give
rise to non-global logarithms (NGLs), and we describe how to include the
leading NGLs. We also discuss alternative measurements in collisions
that can be used to access the TMD fragmentation function. Finally, by using
crossing symmetry, we obtain a new way to constrain TMD parton distributions,
by measuring the displacement of the thrust axis in collisions.Comment: 25 pages, 5 figure
PPE: Effective Protection for Deminers
This article briefly explains the work that Med-Eng Systems, Inc., has done on personal protective equipment (PPE) over the past few years
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Dimensional analysis of the earthquake-induced pounding between inelastic structures
In this paper the seismic response of inelastic structures with unilateral contact is revisited with dimensional analysis. All physically realizable contact types are captured via a non-smooth complementarity approach. The implementation of formal dimensional analysis leads to a condensed presentation of the response and unveils remarkable order even though two different types of non-linearity coexist in the response: the boundary non-linearity of unilateral contact and the inelastic behaviour of the structure itself. It is shown that regardless the intensity and frequency content of the excitation, all response spectra become self-similar when expressed in the appropriate dimensionless terms. The proposed approach hinges upon the notion of the energetic length scale of an excitation which measures the persistence of ground shaking to impose deformation demands. Using the concept of persistency which is defined for excitations with or without distinct pulses, the response is scaled via meaningful novel intensity measures: the dimensionless gap and the dimensionless yield displacement. The study confirms that contact may have a different effect on the response displacements of inelastic structures depending on the spectral region. In adjacent inelastic structures, such as colliding buildings or interacting bridge segments, contact is likely to alter drastically the excitation frequencies’ at which the system is most vulnerable. Finally, it is shown that the proposed approach yields maximum response displacements which correlate very well with the persistency of real earthquakes for a bridge system with considerably complex behaviour
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Dimensional analysis of yielding and pounding structures for records without distinct pulses
The seismic response of two fundamental mechanical configurations of earthquake engineering, the elastic–plastic system and the pounding oscillator, is revisited with the aid of dimensional analysis. Starting from the previous work of the authors which focused on pulse-type excitations, the paper offers an alternative, yet physically motivated, way to present the response of yielding and pounding structures under excitations with arbitrary time history. It is shown, that when the appropriate time and length scales are adopted, dimensional analysis can be implemented and remarkable order emerges in the response. Regardless of the acceleration level and frequency content of the excitation, all response spectra become self-similar and when expressed in dimensionless terms, resulting from dimensional analysis, follow a single master curve. The study proposes such scales together with the associated selection criteria among the available in literature strong ground motion parameters and shows that the proposed approach reduces drastically the scatter in the response
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