545 research outputs found
Pine-Polyethylene (Wood -Polymer) Composites: Synthesis and Mechanical Behavior Characterization.
Processing of recycled wood chips, recently produced after extraction of creosote from telephone posts and railroad crossties, and combining them with a recycled polymer for the synthesis of novel composite materials would initiate a new trend toward preservation of natural resources. The challenge is taken in this work to produce and study the properties of such materials for further advancement of science. In the present study, addition of pine wood chips to HDPE reduced the tensile strength and break strain in tensile loading. Smaller wood chips generally resulted in smaller reductions. Peak load, modulus of rupture and stiffness were slightly higher at 40% pine wood chip concentration in the composite than the polymer alone; they later decreased with increasing concentration of wood chips. Optimal mechanical properties in these composites were produced by pine wood chips smaller than 0.125 inch in size, at around 40 vol. % in concentration. Pre-treatment of wood chips in a suitable solution of NaOH caused an increase in the coupling strength between protruding wood fibers and polymer. Such a treatment followed by a second one with vinyltrimethoxysilane was found to be the best for obtaining maximum bonding strength. Impact testing of the prepared samples showed that more fracture resistant wood-polymer composites were those with larger wood chips at the higher concentration range of 50 to 60 vol. %. In contrast, composites with 60% fine wood chips would fail easily at energy levels far less than those required to break the polymer alone. Variation of (Keng)2/E vs. crack length, the R curve, indicates three regions. The point of transition from region I (elastic) to region II is considered as a critical point of fracture process initiation, KIif,com. The transition from the state of stable crack growth, region II, to region III is considered to be at the point of instability. Likewise, the point of inflection on the plot of Ktrue vs. crack length, corresponding to a large change in slope, indicates also the point of instability. Keng corresponding to this critical point of inflection is proposed to be KIc, the real fracture toughness of these composites
Comparison of Analgesic Effect Between Gabapentin and Diclofenac on Post-Operative Pain in Patients Undergoing Tonsillectomy
Background: Tonsillectomy is a common procedure causing considerable postoperative pain. Postoperative pain intensity of 60 - 70 in the scale of visual analog scale (VAS) has been reported up to 3 - 4 days which could continue until 11 days after the surgery.
Objectives: The current study aimed to compare the analgesic effect of gabapentin and diclofenac on pain after tonsillectomy with the control group.
Patients and Methods: In this double-blind, placebo-controlled clinical trial, 90 patients aged 10-25 years, ASA classes I and II were randomly selected to receive 20 mg/kg oral gabapentin (n = 30), 1.0 mg / kg rectal diclofenac (n = 30) or placebo (n = 30) preoperatively. Pain was evaluated postoperatively on a visual analogue scale at 2, 6, 12 and 24 h. Opioid consumption in the first 24 h after surgery and the side effects were also recorded.
Results: There was no significant difference in terms of age, sex, and time of surgery in the three groups. Patients in the gabapentin and diclofenac groups had significantly lower pain scores at all-time intervals than those in the placebo group. The total meperidine consumed in the gabapentin (14.16 ± 6.97 P = 0.001) and diclofenac (16.66 ± 8.95, P = 0.004) groups was significantly less than that of the placebo (33.4 ± 13.97) group. The frequency of side effects such as vomiting, dizziness, and headache was not significantly different among the groups.
Conclusions: It can be concluded that gabapentin and diclofenac reduced postoperative pain and opioid consumption without obvious side effects
Stable, entropy-consistent, and localized artificial-diffusivity method for capturing discontinuities
In this work, a localized artificial-viscosity/diffusivity method is proposed
for accurately capturing discontinuities in compressible flows. There have been
numerous efforts to improve the artificial diffusivity formulation in the last
two decades, through appropriate localization of the artificial bulk viscosity
for capturing shocks. However, for capturing contact discontinuities, either a
density or internal energy variable is used as a detector. An issue with this
sensor is that it not only detects contact discontinuities, but also falsely
detects the regions of shocks and vortical motions. Using this detector to add
artificial mass/thermal diffusivity for capturing contact discontinuities is
hence unnecessarily dissipative. To overcome this issue, we propose a sensor
similar to the Ducros sensor (for shocks) to detect contact discontinuities,
and further localize artificial mass/thermal diffusivity for capturing contact
discontinuities.
The proposed method contains coefficients that are less sensitive to the
choice of the flow problem. This is achieved by improved localization of the
artificial diffusivity in the present method. A discretely consistent
dissipative flux formulation is presented and is coupled with a robust
low-dissipative scheme, which eliminates the need for filtering the solution
variables. The proposed method also does not require filtering for the
discontinuity detector/sensor functions, which is typically done to smear out
the artificial fluid properties and obtain stable solutions. Hence, the
challenges associated with extending the filtering procedure for unstructured
grids is eliminated, thereby, making the proposed method easily applicable for
unstructured grids. Finally, a straightforward extension of the proposed method
to two-phase flows is also presented.Comment: 24 pages, 11 figures, Under review in the Physical Review Fluids
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Socio-economic and Demographic factors associated with injecting drug use among drug users in Karachi, Pakistan
Objective: To identify the socio-economic and demographic factors associated with injecting drug users (IDUs) in Karachi.
Methods: We recruited 242 IDUs (taking drugs through sub-dermal routes) and 231 non-IDUs (taking drugs other than sub-dermal routes) from February through June 1996. IDUs were interviewed regarding sociodemographic factors, economic condition, and social network (marital status, living with spouse). In addition, information regarding location of drug users within the city (districts of Karachi) and current history of sexually transmitted diseases (STDs) were gathered. Moreover, blood samples were also obtained for HIV testing
.Results: Multivariate analysis showed that the income generation via illegal modes [AOR 1.6, 95% CI 1.0-2.6], non-sharing of income with family [AOR 1.7, 95% CI 1.1-2.7] and presence of suicidal thoughts [AOR 2.0, 95% CI 1.1-3.8] were associated with the use of drugs through injections. Further, drug users from districts West, East and Central were more likely to use drug through injection as compared to drug users from district South. The history of genital herpes was also found to be associated with injecting drug use. One IDU was found seropositive for HIV.
Conclusion: The high-risk behaviors, such as illegal modes of earning and presence of suicidal thoughts, among IDUs suggest that the group needs rehabilitation programme. Moreover, non-sharing of income suggest that IDUs are isolated from social network, therefore primary prevention activities with focus on improving socioeconomic conditions and social networking can reduce drug use through injections. Focused interventions on target districts would be helpful in reducing IDU (JPMA 53:511;2003)
Dust in a Type Ia Supernova Progenitor: Spitzer Spectroscopy of Kepler's Supernova Remnant
Characterization of the relatively poorly-understood progenitor systems of
Type Ia supernovae is of great importance in astrophysics, particularly given
the important cosmological role that these supernovae play. Kepler's Supernova
Remnant, the result of a Type Ia supernova, shows evidence for an interaction
with a dense circumstellar medium (CSM), suggesting a single-degenerate
progenitor system. We present 7.5-38 m infrared (IR) spectra of the
remnant, obtained with the {\it Spitzer Space Telescope}, dominated by emission
from warm dust. Broad spectral features at 10 and 18 m, consistent with
various silicate particles, are seen throughout. These silicates were likely
formed in the stellar outflow from the progenitor system during the AGB stage
of evolution, and imply an oxygen-rich chemistry. In addition to silicate dust,
a second component, possibly carbonaceous dust, is necessary to account for the
short-wavelength IRS and IRAC data. This could imply a mixed chemistry in the
atmosphere of the progenitor system. However, non-spherical metallic iron
inclusions within silicate grains provide an alternative solution. Models of
collisionally-heated dust emission from fast shocks ( 1000 km s)
propagating into the CSM can reproduce the majority of the emission associated
with non-radiative filaments, where dust temperatures are K, but
fail to account for the highest temperatures detected, in excess of 150 K. We
find that slower shocks (a few hundred km s) into moderate density
material ( cm) are the only viable source of heating
for this hottest dust. We confirm the finding of an overall density gradient,
with densities in the north being an order of magnitude greater than those in
the south.Comment: Accepted by ApJ. 11 pages, 5 figures, 1 table. Produced using
emulateapj forma
Search for subgrid scale parameterization by projection pursuit regression
The dependence of subgrid-scale stresses on variables of the resolved field is studied using direct numerical simulations of isotropic turbulence, homogeneous shear flow, and channel flow. The projection pursuit algorithm, a promising new regression tool for high-dimensional data, is used to systematically search through a large collection of resolved variables, such as components of the strain rate, vorticity, velocity gradients at neighboring grid points, etc. For the case of isotropic turbulence, the search algorithm recovers the linear dependence on the rate of strain (which is necessary to transfer energy to subgrid scales) but is unable to determine any other more complex relationship. For shear flows, however, new systematic relations beyond eddy viscosity are found. For the homogeneous shear flow, the results suggest that products of the mean rotation rate tensor with both the fluctuating strain rate and fluctuating rotation rate tensors are important quantities in parameterizing the subgrid-scale stresses. A model incorporating these terms is proposed. When evaluated with direct numerical simulation data, this model significantly increases the correlation between the modeled and exact stresses, as compared with the Smagorinsky model. In the case of channel flow, the stresses are found to correlate with products of the fluctuating strain and rotation rate tensors. The mean rates of rotation or strain do not appear to be important in this case, and the model determined for homogeneous shear flow does not perform well when tested with channel flow data. Many questions remain about the physical mechanisms underlying these findings, about possible Reynolds number dependence, and, given the low level of correlations, about their impact on modeling. Nevertheless, demonstration of the existence of causal relations between sgs stresses and large-scale characteristics of turbulent shear flows, in addition to those necessary for energy transfer, provides important insight into the relation between scales in turbulent flows
A local dynamic model for large eddy simulation
The dynamic model is a method for computing the coefficient C in Smagorinsky's model for the subgrid-scale stress tensor as a function of position from the information already contained in the resolved velocity field rather than treating it as an adjustable parameter. A variational formulation of the dynamic model is described that removes the inconsistency associated with taking C out of the filtering operation. This model, however, is still unstable due to the negative eddy-viscosity. Next, three models are presented that are mathematically consistent as well as numerically stable. The first two are applicable to homogeneous flows and flows with at least one homogeneous direction, respectively, and are, in fact, a rigorous derivation of the ad hoc expressions used by previous authors. The third model in this set can be applied to arbitrary flows, and it is stable because the C it predicts is always positive. Finally, a model involving the subgrid-scale kinetic energy is presented which attempts to model backscatter. This last model has some desirable theoretical features. However, even though it gives results in LES that are qualitatively correct, it is outperformed by the simpler constrained variational models. It is suggested that one of the constrained variational models should be used for actual LES while theoretical investigation of the kinetic energy approach should be continued in an effort to improve its predictive power and to understand more about backscatter
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