40,756 research outputs found
Mixing in two magnetic OB stars discovered by the MiMeS collaboration
Recent observational and theoretical arguments suggest that magnetic OB stars
may suffer more mixing than their non magnetic analogs. We present the results
of an NLTE abundance study revealing a lack of CN-cycled material at the
surface of two magnetic stars discovered by the MiMeS project (NGC2244 #201 and
HD 57682). The existence of a strong magnetic field is therefore not a
sufficient condition for deep mixing in main-sequence OB stars.Comment: 2 pages, no figures. To appear in proceedings of IAUS272 'Active OB
Stars: Structure, Evolution, Mass Loss and Critical Limits
Teaching durability in automotive applications using a reliability approach
Fatigue phenomena, which appear generally below the yield stress, is the cause of more than 80 % of in-service mechanical failures. However, the optimization of the weight and cost when designing mechanical components or structures, linked to improved performance, leads to increasingly stressed components. Therefore a fatigue design approach must be done by the engineer. This paper shows the experience gained over five academic years of teaching fatigue the assessment of automotive components using a reliability approach to predict probability of failure, in the engineering school, Arts et Métiers ParisTech, in France. The choice was made to present a comprehensive fatigue assessment approach using a method, initially developed in the automotive industry and since extended to the aeronautical and mechanical industries. This method is known as the “Stress-Strength interference analysis”. The “Stress” represents the distribution of the driver severity, and the “Strength” represents the distribution of the fatigue strength of all the components. A suspension arm is used to illustrate the approach. The Dang Van multiaxial fatigue criterion is implemented in a Finite Elements Code and a danger coefficient is visualized on the meshed structure. The fatigue analysis is interpreted with respect to the target reliability sought by the car- manufacturer
Are magnetic OB stars more prone to mixing? Still an unsettled issue
We review our knowledge of the mixing properties of magnetic OB stars and
discuss whether the observational data presently available support, as
predicted by some theoretical models, the idea that magnetic phenomena favour
the transport of the chemical elements. A (likely statistical) relationship
between enhanced mixing and the existence of a field has been emerging over the
last few years. As discussed in this contribution, however, a clear answer to
this question is presently hampered by the lack of large and well-defined
samples of magnetic and non-magnetic stars.Comment: 5 pages, one colour figure. In 'Four decades of research on massive
stars: a scientific meeting in honour of A.F.J. Moffat', ASP Conf. Series, in
pres
Abundances of massive stars: some recent developments
Thanks to their usefulness in various fields of astrophysics (e.g. mixing
processes in stars, chemical evolution of galaxies), the last few years have
witnessed a large increase in the amount of abundance data for early-type
stars. Two intriguing results emerging since the last reviews on this topic
will be discussed: (a) nearby OB stars exhibit metal abundances generally lower
than the solar/meteoritic estimates; (b) evolutionary models of single objects
including rotation are largely unsuccessful in explaining the CNO properties of
stars in the Galaxy and in the Magellanic clouds.Comment: Invited review presented at 'Evolution and Pulsation of Massive Stars
on the Main Sequence and Close to it' (Liege, July 2008). To appear in
Communications in Asteroseismology (8 pages and 7 colour figures
A Biaxial Fatigue Specimen for Uniaxial Loading
The aim of this paper is to present a novel un-notched fatigue test specimen in which a biaxial stress state is achieved using a uniaxial loading condition. This allows the problem of multi-axial fatigue to be studied using relatively common one-axis servo-hydraulic testing machines. In addition the specimen presented here is very compact and can be made using a small volume of material (100x40x4.5mm). For this specimen, the degree of biaxiality, defined by the parameter is equal to approximately 0.45. The specimen geometry was optimised using the Dang Van multi-axial fatigue criterion. In addition to use as a fatigue specimen, it has been demonstrated that the biaxial specimen presented here is also suitable for biaxial tensile tests, to determine the rupture strength of a material in a biaxial stress state. Two different materials have been investigated: The first was wrought aluminium 2024-O in the form of 5mm sheets. The second was a cast aluminium-silicon alloy AlSi7Cu0.5Mg0.3, commonly used in automotive and aeronautical applications. The fatigue strengths were determined at 2x106 cycles and at various R-ratios using a staircase procedure. For the aluminium 2024, it is shown that the biaxial stress state increases the maximum permissible first principal stress when compared to the uniaxial condition. However, in terms of the cast aluminium alloy, it has been demonstrated that this type of fatigue specimen is not suitable for materials containing casting defects, in particular micro-shrinkage pores, because the volume of material, in which the stress state is biaxial, is not large enough.The authors gratefully acknowledge the financial support of PSA – Peugeot Citroën and also that of the Conseil Général du Département de Maine-et-Loire, France
On a conjecture of Morel
In this note we prove that the -connected component sheaf
of an -group is
-invariant
- …