8,634 research outputs found
Toward a constitutive model for cure dependent modulus of a high temperature epoxy during the cure
A constitutive model, based on Kohlrausch-Williams-Watts (KWW) equations, was
developed to simulate the evolution of the dynamic relaxation modulus during the
cure of a "high temperature' epoxy. The basic assumption of the modelling
methodology proposed is the equivalence of the mechanisms underlying the
evolution of the glass transition temperature and the relaxation time shift
during the cure, leading to the use of a common potential function. This
assumption is verified by the comparison of normalized glass transition data and
principal relaxation times, which have been found to follow a single master
curve. Results show satisfactory agreement between experimental data and model
prediction over the range of chemical conversion considered
Percolation threshold of carbon nanotubes filled unsaturated polyesters
This paper reports on the development of electrically conductive nanocomposites
containing multi-walled carbon nanotubes in an unsaturated polyester matrix. The
resistivity of the liquid suspension during processing is used to evaluate the
quality of the filler dispersion, which is also studied using optical
microscopy. The electrical properties of the cured composites are analysed by AC
impedance spectroscopy and DC conductivity measurements. The conductivity of the
cured nanocomposite follows a statistical percolation model, with percolation
threshold at 0.026 wt.% loading of nanotubes. The results obtained show that
unsaturated polyesters are a matrix suitable for the preparation of electrically
conductive thermosetting nanocomposites at low nanotube concentrations. The
effect of carbon nanotubes reaggregation on the electrical properties of the
spatial structure generated is discussed
Anomalous Thermoluminescent Kinetics of Irradiated Alkali Halides
Anomalous thermoluminescent kinetics of irradiated alkali halide
Recommended from our members
An ontological approach for recovering legacy business content
Legacy Information Systems (LIS) pose a challenge for many organizations. On one hand, LIS are viewed as aging systems needing replacement; on the other hand, years of accumulated business knowledge have made these systems mission-critical. Current approaches however are often criticized for being overtly dependent on technology and ignoring the business knowledge which resides within LIS. In this light, this paper proposes a means of capturing the business knowledge in a technology agnostic manner and transforming it in a way that reaps the benefits of clear semantic expression - this transformation is achieved via the careful use of ontology. The approach called Content Sophistication (CS) aims to provide a model of the business that more closely adheres to the semantics and relationships of objects existing in the real world. The approach is illustrated via an example taken from a case study concerning the renovation of a large financial system and the outcome of the approach results in technology agnostic models that show improvements along several dimensions
Ultracold polarized Fermi gas at intermediate temperatures
We consider non-zero temperature properties of the polarized two-component
Fermi gas. We point out that stable polarized paired states which are more
stable than their phase separated counterparts with unpolarized superfluid
region can exist below the critical temperature. We also solve the system
behavior in a trap using the local density approximation and find gradually
increasing polarization in the center of the system as the temperature is
increased. However, in the strongly interacting region the central polarization
increases most rapidly close to the mean-field critical temperature, which is
known to be substantially higher than the critical temperature for
superfluidity. This indicates that most of the phase separation occurs in the
fluctuation region prior to superfluidity and that the polarization in the
actual superfluid is modest.Comment: Final published versio
An Energy-conscious Transport Protocol for Multi-hop Wireless Networks
We present a transport protocol whose goal is to reduce power consumption without compromising delivery requirements of applications. To meet its goal of energy efficiency, our transport protocol (1) contains mechanisms to balance end-to-end vs. local retransmissions; (2) minimizes acknowledgment traffic using receiver regulated rate-based flow control combined with selected acknowledgements and in-network caching of packets; and (3) aggressively seeks to avoid any congestion-based packet loss. Within a recently developed ultra low-power multi-hop wireless network system, extensive simulations and experimental results demonstrate that our transport protocol meets its goal of preserving the energy efficiency of the underlying network.Defense Advanced Research Projects Agency (NBCHC050053
Review of Access and Quality of Care in SCHIP Using Standardized National Performance Measures
The State Children\u27s Health Insurance Program (SCHIP) has proven to be a critical addition to public coverage programs for low-income children since its inception ten years ago. Tracking the number of children enrolled, however, is only part of the story. This technical paper reviews access and quality for children enrolled in SCHIP by examining information on four primary and preventive care health measures submitted to the Centers for Medicare & Medicaid Services by states in their 2005 annual reports. The paper concludes that the data examined for this paper indicate that children enrolled in SCHIP are receiving not only coverage but care; the paper also suggests issues that require additional attention and discussion
A novel N-terminal extension in mitochondrial TRAP1 serves as a thermal regulator of chaperone activity.
Hsp90 is a conserved chaperone that facilitates protein homeostasis. Our crystal structure of the mitochondrial Hsp90, TRAP1, revealed an extension of the N-terminal β-strand previously shown to cross between protomers in the closed state. In this study, we address the regulatory function of this extension or 'strap' and demonstrate its responsibility for an unusual temperature dependence in ATPase rates. This dependence is a consequence of a thermally sensitive kinetic barrier between the apo 'open' and ATP-bound 'closed' conformations. The strap stabilizes the closed state through trans-protomer interactions. Displacement of cis-protomer contacts from the apo state is rate-limiting for closure and ATP hydrolysis. Strap release is coupled to rotation of the N-terminal domain and dynamics of the nucleotide binding pocket lid. The strap is conserved in higher eukaryotes but absent from yeast and prokaryotes suggesting its role as a thermal and kinetic regulator, adapting Hsp90s to the demands of unique cellular and organismal environments
Fatigue delamination behaviour of unidirectional carbon fibre/epoxy laminates reinforced by Z-Fiber® pinnin
-Pin reinforced carbon-fibre epoxy laminates were tested under Mode I and Mode
II conditions, both quasi-statically and in fatigue. Test procedures were
adapted from existing standard or pre-standard tests. Samples containing 2% and
4% areal densities of carbon-fibre Z-pins (0.28mm diameter) were compared with
unpinned laminates. Quasi-static tests under displacement control yielded a
dramatic increase of the apparent delamination resistance. Specimens with 2% pin
density failed in Mode I at loads 170N, equivalent to an apparent GIC of 2kJ/m2.
Fatigue testing under load control showed that the presence of the through-
thickness reinforcement slowed down fatigue delamination propagation
- …