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Stress Profiles (stress + profile)

Distribution by Scientific Domains

Medical Sciences	50%
Chemistry	28%
Polymers and Materials Science	14%

Selected Abstracts

Significance of working conditions on burnout in anesthetists

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 1 2006
W. Lederer
Background:, The influence of working conditions on the development of burnout syndrome was assessed in anesthetists working at a university hospital. Methods:, Self-reporting questionnaires were used to assess physical health and emotional well-being (Health and Stress Profile), burnout syndrome (Maslach Burnout Inventory) and working conditions (Instrument for Stress-Oriented Task Analysis) in anesthetists. Results:, Twenty-three anesthetists (25.8%) appeared to be at risk for burnout, and three anesthetists (3.4%) had already developed full-blown burnout syndrome. Anesthetists at risk for burnout more frequently suffered from limited complexity of work (P = 0.001), lacking individual time control (P = 0.004), lack of participation possibilities (P = 0.012), and had more physical complaints (P = 0.017) and greater job dissatisfaction (P = 0.002) than did their colleagues with no burnout symptoms. Conclusion:, Job conditions providing little opportunity to influence work pace and participation contribute to the development of burnout syndrome. Communication and contact with colleagues appear to be an important preventive regulative. [source]

Ion-Exchanged Glass Laminates that Exhibit a Threshold Strength

JOURNAL OF THE AMERICAN CERAMIC SOCIETY, Issue 8 2007
Scott P. Fillery
Glass laminates, fabricated to include periodic thin layers containing biaxial compressive stresses, exhibit a threshold strength, i.e., a stress below which failure will not occur. Ion-exchange treatments in KNO3 at 350°,450°C for periods of 3,72 h were used to create residual compressive stresses at the surface of soda lime silicate glass sheets. Wafer direct bonding of the ion-exchanged glass sheets resulted in glass laminates with thin layers of compressive stress adjacent to the glass interface and perpendicular to the laminate top surface. Critical strain energy release measurements of the bonded interface were used to optimize the bonding temperature/time to avoid significant relaxation of the stress produced by ion exchange. Stress profiles, determined via the wafer curvature measurement method, showed a residual compressive stress maximum of 328 MPa for an ion exchange temperature of 450°C. The threshold flexural strength of the ion exchanged glass laminates was determined to be 112 MPa after the introduction of indentation cracks with indent loads ranging from 1 to 5 kg. In contrast to similar ceramic laminates, where cracks either propagate across the compressive layer or bifurcate within the compressive layer, the cracks in the glass laminates were deflected along the interface between the bonded sheets. [source]

Numerical and experimental investigation of shrinkage behavior of precision injection molded articles.

POLYMER ENGINEERING & SCIENCE, Issue 8 2008

In the accompanying paper, Part I, presented are the physical modeling and numerical formulation of new lateral motion modelings. In Part II, new models developed in Part I are validated by the successful comparison of calculated residual stress profile with the literature data. The predicted results of the birefringence, residual stress distribution, and shrinkage from new lateral motion modeling are in better agreement with corresponding experimental data than those from the conventional ones. The new model prediction falls between those of two extreme cases corresponding to conventional models. As a result of extensive parametric study of processing conditions, the developed analysis system is found to be capable of successfully predicting the tendency of shrinkage behavior varying with most of processing conditions. In this regard, the new model enables better analysis based design and optimization of precision injection-molded products. POLYM. ENG. SCI., 2008. © 2008 Society of Plastics Engineers [source]

Emollient molecule effects on the drying stresses in human stratum corneum

BRITISH JOURNAL OF DERMATOLOGY, Issue 4 2010
K. Levi
Summary Background Emollient molecules are widely used in skin care formulations to improve skin sensory properties and to alleviate dry skin but little is understood regarding their effects on skin biomechanical properties. Objectives To investigate the effects of emollient molecules on drying stresses in human stratum corneum (SC) and how these stresses are related to SC components and moisture content. Methods The substrate curvature method was used to measure the drying stresses in isolated SC following exposure to selected emollient molecules. While SC stresses measured using this method have the same biaxial in vivo stress state and moisture exchange with the environment, a limitation of the method is that moisture cannot be replenished by the underlying skin layers. This provides an opportunity to study the direct effects of emollient treatments on the moisture content and the components of the SC. Attenuated total reflectance Fourier transform infrared spectroscopy was used to determine the effects of emollient molecules on SC lipid extraction and conformation. Results Emollient molecules resulted in a complex SC drying stress profile where stresses increased rapidly to peak values and then gradually decreased to significantly lower values compared with the control. The partially occlusive treatments also penetrated into the SC where they caused extraction and changes in lipid conformation. These effects together with their effects on SC moisture content are used to rationalize the drying stress profiles. Conclusions Emollient molecules have dramatic effects on SC drying stresses that are related to their effects on intercellular lipids and SC moisture content. [source]

Posttraumatic stress among children in Kurdistan

ACTA PAEDIATRICA, Issue 7 2008
A Ahmad
Abstract Aim: To identify a posttraumatic stress disorder profile for the Child Behaviour Checklist. Method: Checklist item scores for 806 school-aged children in Iraqi Kurdistan (201 randomly selected from the general population, 241 orphans, 199 primary medical care visitors and 165 hospital in-patients) were analysed against the Posttraumatic Stress Symptom Scale for Children (PTSS-C) scores, estimating not only stress diagnoses, but also nonstress-related, child-specific posttraumatic symptoms. Results: Twenty checklist items, which revealed significant correlations with the stress diagnoses, formed the checklist,stress profile with acceptable reliability and validity, and significant correlation to the PTSS-C estimates. Conclusion: A child-specific stress profile for the checklist is recommended for use as a screening instrument. [source]

Raman spectroscopic and X-ray investigation of stressed states in diamond-like carbon films

CRYSTAL RESEARCH AND TECHNOLOGY, Issue 1-2 2005
R. Krawietz
Abstract The non-destructive characterization of intrinsic stress is very important to evaluate the reliability of devices based on diamond-like carbon (DLC) films. Whereas the only requirement for the X-ray diffraction method is a crystalline state of specimen, Raman spectroscopic stress analysis is restricted to materials showing intensive and sharp Raman peaks. On the other hand, Raman spectroscopy offers the possibility to measure stress profiles with lateral resolution of about 1 micron. The results of stress measurements in DLC films using both X-ray diffraction and Raman spectroscopy are found in very good correspondence. Mean stress in carbon films consisting of very small crystallites on silicon substrates has been determined by measuring and fitting the stress profiles in the substrate near artificial vertical film edges. (© 2005 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]

2-D numerical simulation of differential viscoelastic fluids in a single-screw continuous mixer: Application of viscoelastic finite element methods

ADVANCES IN POLYMER TECHNOLOGY, Issue 1 2003
Robin K. Connelly
Abstract Viscoelastic effects on mixing flows obtained with kneading paddles in a single-screw, continuous mixer were explored using 2-D finite element method numerical simulations. The single-mode Phan,Thien Tanner nonlinear, viscoelastic fluid model was used with parameters for a dough-like material. The viscoelastic limits of the simulations were found using elastic viscous stress splitting, 4 × 4 sub-elements for stress, streamline upwind, and streamline upwind Petrov,Galerkin (SUPG). Mesh refinement and comparison between methods was also done. The single-screw mixer was modeled by taking the kneading paddle as the point of reference, fixing the mesh in time. Rigid rotation and no slip boundary conditions at the walls were used with inertia taken into account. Results include velocity, pressure, and stress profiles. The addition of viscoelasticity caused the shear and normal stresses to vary greatly from the viscous results, with a resulting loss of symmetry in the velocity and pressure profiles in the flow region. © 2003 Wiley Periodicals, Inc. Adv Polym Techn 22: 22,41, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/adv.10038 [source]

Mapping of unstressed lattice parameters using pulsed neutron transmission diffraction

JOURNAL OF APPLIED CRYSTALLOGRAPHY, Issue 4 2002
Javier Roberto Santisteban
Stress measurement by neutron diffraction depends critically on knowledge of the unstressed lattice parameter (a0) of the specimen under study. As a result, measurement of stress profiles in components where a0 is not homogeneous throughout the sample, such as welds or carburized surfaces, can be particularly difficult. An efficient solution to this problem is proposed based on the pulsed neutron transmission diffraction technique. This technique exploits the sharp steps in intensity, the so-called Bragg edges, appearing in the transmitted neutron spectra of polycrystalline materials, such steps being produced by coherent scattering from lattice planes. The position of these Bragg edges as defined by the time-of-flight technique is used to determine precisely local interplanar distances. In this work it is shown that the unstressed lattice parameter of thin specimens subjected to plane stress fields can be defined by recording transmission spectra at different sample inclinations, in complete analogy with the sin2, technique used in X-ray diffraction. Moreover, by using an array of detectors it is possible to produce a radiographic `image' of a0 for plane specimens or thin sections out of three-dimensional ones. The capability of the technique is exemplified by mapping the changes in a0 for a ferritic weld that was used as a round robin sample in an international program for standardization of stress measurements by neutron diffraction. [source]

The effect of mixer properties and fill level on granular flow in a bladed mixer

AICHE JOURNAL, Issue 2 2010
Brenda Remy
Abstract The discrete element method was used to study the effect of mixer properties and fill level on the granular flow of monodisperse, cohesionless spheres in a bladed mixer. For fill levels just covering the span of the blades, a three-dimensional (3-D) recirculation zone develops in front of the blades, which promotes vertical and radial mixing. Increasing fill level reduces the size of the recirculation zone, decreases bed dilation and hinders particle diffusivities. However, above a critical fill level, the behavior of the particles within the span of the blade is found to be invariant of fill level. At low-fill levels, the pressure within the particle bed varies linearly with bed height and can be approximated by hydrostatics. At higher fill levels, a constant pressure region develops within the span of the blades due to the angled pitch of the blades. Cylinder wall friction is shown to significantly influence granular behavior in bladed mixers. At low-wall friction, the 3-D recirculation zone observed for high-wall friction conditions does not develop. High-wall friction leads to an increase in convective and diffusive particle mixing. Shear stresses are shown to be a function of wall friction. Blade position along the vertical axis is shown to influence flow patterns, granular temperature and stress. The effect of increasing the mixer diameter at a constant particle diameter was also studied. When the mixer diameter is larger than a critical size such that wall effects are minimized, the observed granular behavior follows simple scaling relations. Particle velocities and diffusivities scale linearly with mixer size and blade speed. Normal and shear stress profiles are found to scale linearly with the total weight of the particle bed. © 2009 American Institute of Chemical Engineers AIChE J, 2010 [source]

Spatial and spectral heterogeneity of time-varying shear stress profiles in the carotid bifurcation by phase-contrast MRI

JOURNAL OF MAGNETIC RESONANCE IMAGING, Issue 6 2006
Bradley D. Gelfand BSE
Abstract Purpose To determine the heterogeneity of the time-varying shear stress profiles in the human carotid bifurcation, a region prone to atherosclerosis. Materials and Methods Lagrangian bicubic interpolation of phase-contrast MRI images was used to determine the shear stress profiles for three adult healthy male volunteers. Frequency spectra for the common and internal carotid artery (CCA and ICA, respectively)-derived shear stresses were examined in order to determine the presence of significant heterogeneity in the intensity distribution. Results Hemodynamic characteristics (peak, minimum, average shear stress, and oscillatory shear index [OSI]) were highly heterogeneous both along the length of the vessel as well as circumferentially around the CCA and ICA. In the frequency domain, intensities below 4 Hz were significantly higher in the CCA compared to the sinus region of the ICA, indicating that shear stress heterogeneity can be detected in the frequency domain. The harmonic index, a measure of the relative contributions of dynamic and static components of the shear stress signal, colocalizes with OSI, which implies a relationship between specific frequency components and atherosclerosis development. Conclusion These findings indicate that the time and frequency dependent parameters of in vivo shear stress have important implications for regional development of atherosclerosis. J. Magn. Reson. Imaging 2006. © 2006 Wiley-Liss, Inc. [source]

Discrete element simulation of free flowing grains in a four-bladed mixer

AICHE JOURNAL, Issue 8 2009
Brenda Remy
Abstract Numerical simulations of granular flow in a cylindrical vessel agitated by a four-blade impeller were performed using the discrete element method. Velocity, density, and stress profiles within the mixer displayed a periodic behavior with a fluctuation frequency equal to that of the blade rotation. Blade orientation was found to affect flow patterns and mixing kinetics. For an obtuse blade pitch orientation, a three-dimensional recirculation zone develops in-front of the blade due to formation of heaps where the blades are present. This flow pattern promotes vertical and radial mixing. No recirculation zone was observed when the blade orientation was changed to an acute blade pitch. The system's frictional characteristics are shown to strongly influence the granular behavior within the mixer. At low friction coefficients, the 3-D recirculation in front of the obtuse blade is not present reducing convective mixing. Higher friction coefficients lead to an increase in granular temperature which is associated with an increase in diffusive mixing. Normal and shear stresses were found to vary with mixer height with maximum values near the bottom plate. Additionally, a strong dependence between the magnitude of the shear stresses and the friction coefficient of the particles was found. The stress tensor characteristics indicate that the granular flow in our simulations occurs in the quasi-static regime. At the same time, the averaged pressure was found to vary linearly with bed height and could be predicted by a simple hydrostatic approximation. © 2009 American Institute of Chemical Engineers AIChE J, 2009 [source]