953 research outputs found
Testing an injection forging process for the production of automotive fasteners
Competition in the automotive fasteners production has been fierce and there are needs for higher quality, lower manufacturing-cost and fast delivery. To meet such needs, injection forging of automotive fasteners for possible industrial production has been investigated, considering its potential of forming complex-shaped components with shorter process chains. Initially, a comparison study on existing multi-stage forming and injection forging was conducted, supported by FE simulations, through which the feasibility of using injection forging for producing one type of fasteners was established preliminarily. The process was then tested through forming experiments based on which component accuracy, formed-material hardness and grain-flow lines were examined to evaluate the quality of the fasteners formed. Further, a manufacturing trial was carried out in the industry to examine the process feasibility in the industrial environment. Besides the parts with good quality having been achieved, the requirement for higher forming-force and the consequence as larger die-deflections were also identified through these studies. Based on the results obtained, improvements on the process and tool-design were proposed, focusing on the forming-force reduction and higher part-dimension accuracy
D-Brane Probe and Closed String Tachyons
We consider a D-brane probe in unstable string background associated with
flux branes. The twist in spacetime metric reponsible for the supersymmetry
breaking is shown to manifest itself in mixing of open Wilson lines with the
phases of some adjoint matter fields, resulting in a nonlocal and
nonsupersymmetric form of Yang-Mills theory as the probe dynamics. This
provides a setup where one can study fate of a large class of unstable closed
string theories that include as a limit type 0 theories and various orbifolds
of type II and type 0 theories. We discuss the limit of orbifold
in some detail and speculate on couplings with closed string tachyons.Comment: LaTeX, 17 pages, typos fixed, references update
Virtual Black Holes
One would expect spacetime to have a foam-like structure on the Planck scale
with a very high topology. If spacetime is simply connected (which is assumed
in this paper), the non-trivial homology occurs in dimension two, and spacetime
can be regarded as being essentially the topological sum of and
bubbles. Comparison with the instantons for pair creation of black holes
shows that the bubbles can be interpreted as closed loops of
virtual black holes. It is shown that scattering in such topological
fluctuations leads to loss of quantum coherence, or in other words, to a
superscattering matrix that does not factorise into an matrix and its
adjoint. This loss of quantum coherence is very small at low energies for
everything except scalar fields, leading to the prediction that we may never
observe the Higgs particle. Another possible observational consequence may be
that the angle of QCD is zero without having to invoke the
problematical existence of a light axion. The picture of virtual black holes
given here also suggests that macroscopic black holes will evaporate down to
the Planck size and then disappear in the sea of virtual black holes.Comment: 24p, LaTeX, 3 postscript figures included with epsf sent in a
seperate uuencoded fil
Magnetic properties and switching volumes of nanocrystalline SmFeSiC films
Systematic studies of the effects of Si addition on the magnetic and magnetization reversal properties of SmFeSiC films are presented. The magnetic switching volume and other magnetic parameters (e.g., coercivity) are strongly dependent upon the Si content. Correlations between switching volume, coercivity, and the intergrain interactions are discussed
A forging method for reducing process steps in the forming of automotive fasteners
The automotive component manufacturing sector is experiencing fierce competitions. To enable improvements in production efficiency, the authors introduced single step injection forging as an alternative to conventional multisteps forging processes for manufacturing automobile fasteners, being enabled by a dedicated tool-design to achieve combined material-flows and hence, a complex component-form. To assist in this, a feasibility study was conducted, including comparisons of conventional multisteps forging with injection forging, through FE simulations, experimental validation of the injection forging process, as well as detailed examinations of the quality of the parts formed. The simulations were focused mainly on the forming of a wheel bolt. Axi-symmetric models were developed to analyse forging force and energy requirements, resulting forming-errors and tool stresses for each process. Injection forging tests were carried out in a factory environment with the aim of verifying the FE results and of confirming process and tool-design feasibility. Based on the results from these studies, the feasibility of replacing multisteps forging with injection forging was confirmed. It was established that injection forging may demand higher a forming force in its single step but it would consume less energy. Also, there is less chance of developing flow faults during injection forging, which is critical for the forming of the automotive fasteners. Nevertheless, due to the complex material-flow in injection forging and large die-deflections, a dedicated tool-design for compensating for forming-errors and for enhancing tool-life has to be enabled for the forging production applications
Information flow in interaction networks II: channels, path lengths and potentials
In our previous publication, a framework for information flow in interaction
networks based on random walks with damping was formulated with two fundamental
modes: emitting and absorbing. While many other network analysis methods based
on random walks or equivalent notions have been developed before and after our
earlier work, one can show that they can all be mapped to one of the two modes.
In addition to these two fundamental modes, a major strength of our earlier
formalism was its accommodation of context-specific directed information flow
that yielded plausible and meaningful biological interpretation of protein
functions and pathways. However, the directed flow from origins to destinations
was induced via a potential function that was heuristic. Here, with a
theoretically sound approach called the channel mode, we extend our earlier
work for directed information flow. This is achieved by constructing a
potential function facilitating a purely probabilistic interpretation of the
channel mode. For each network node, the channel mode combines the solutions of
emitting and absorbing modes in the same context, producing what we call a
channel tensor. The entries of the channel tensor at each node can be
interpreted as the amount of flow passing through that node from an origin to a
destination. Similarly to our earlier model, the channel mode encompasses
damping as a free parameter that controls the locality of information flow.
Through examples involving the yeast pheromone response pathway, we illustrate
the versatility and stability of our new framework.Comment: Minor changes from v3. 30 pages, 7 figures. Plain LaTeX format. This
version contains some additional material compared to the journal submission:
two figures, one appendix and a few paragraph
Open Issues on the Synthesis of Evolved Stellar Populations at Ultraviolet Wavelengths
In this paper we briefly review three topics that have motivated our (and
others') investigations in recent years within the context of evolutionary
population synthesis techniques. These are: The origin of the FUV up-turn in
elliptical galaxies, the age-metallicity degeneracy, and the study of the
mid-UV rest-frame spectra of distant red galaxies. We summarize some of our
results and present a very preliminary application of a UV grid of theoretical
spectra in the analysis of integrated properties of aged stellar populations.
At the end, we concisely suggest how these topics can be tackled once the World
Space Observatory enters into operation in the midst of this decade.Comment: 8 pages, 4 figures, accepted for publication in Astrophysics & Space
Science, UV Universe special issu
A minimum single-band model for low-energy excitations in superconducting KFeSe
We propose a minimum single-band model for the newly discovered iron-based
superconducting KFeSe. Our model is found to be numerically
consistent with the five-orbital model at low energies. Based on our model and
the random phase approximation, we study the spin fluctuation and the pairing
symmetry of superconducting gap function. The spin excitation
and the pairing symmetry are revealed. All of the results can
well be understood in terms of the interplay between the Fermi surface topology
and the local spin interaction, providing a sound picture to explain why the
superconducting transition temperature is as high as to be comparable to those
in pnictides and some cuprates. A common origin of superconductivity is
elucidated for this compound and other high-T materials.Comment: 5 pages, 4 figure
Thermodynamic behavior of IIA string theory on a pp-wave
We obtain the thermal one loop free energy and the Hagedorn temperature of
IIA superstring theory on the pp-wave geometry which comes from the circle
compactification of the maximally supersymmetric eleven dimensional one. We use
both operator and path integral methods and find the complete agreement between
them in the free energy expression. In particular, the free energy in the limit is shown to be identical with that of IIB string theory on
maximally supersymmetric pp-wave, which indicates the universal thermal
behavior of strings in the large class of pp-wave backgrounds. We show that the
zero point energy and the modular properties of the free energy are naturally
incorporated into the path integral formalism.Comment: 25 pages, Latex, JHEP style, v4: revised for clarity without change
in main contents, version to appear in JHE
Measurements of J/psi Decays into 2(pi+pi-)eta and 3(pi+pi-)eta
Based on a sample of 5.8X 10^7 J/psi events taken with the BESII detector,
the branching fractions of J/psi--> 2(pi+pi-)eta and J/psi-->3(pi+pi-)eta are
measured for the first time to be (2.26+-0.08+-0.27)X10^{-3} and
(7.24+-0.96+-1.11)X10^{-4}, respectively.Comment: 11 pages, 6 figure
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