Mise en oeuvre expérimentale d’impacts basse vitesse sur matériau énergétique

Les matériaux énergétiques présentent un caractère sensible aux sollicitations mécaniques, chimiques ou thermiques « faibles », dont l’origine est probablement liée à un endommagement microstructural progressif du matériau. La butalite analysée dans le cadre de notre étude est un propergol composite, constitué de grains de perchlorate d’ammonium et d’une matrice polymérique de type PBHT. Pour décrire la réponse thermomécanique sous faible choc de ce matériau à l’échelle mésoscopique, nous réalisons des essais d’impacts basse vitesse à la tour de chute, sous différentes  configurations expérimentales, en couplant un enregistrement par caméra rapide à une analyse ante et post mortem de l’échantillon par microtomographie X..

Demosponge EST Sequencing Reveals a Complex Genetic Toolkit of the Simplest Metazoans

Sponges (Porifera) are among the simplest living and the earliest branching metazoans. They hold a pivotal role for studying genome evolution of the entire metazoan branch, both as an outgroup to Eumetazoa and as the closest branching phylum to the common ancestor of all multicellular animals (Urmetazoa). In order to assess the transcription inventory of sponges, we sequenced expressed sequence tag libraries of two demosponge species, Suberites domuncula and Lubomirskia baicalensis, and systematically analyzed the assembled sponge transcripts against their homologs from complete proteomes of six well-characterized metazoans—Nematostella vectensis, Caenorhabditis elegans, Drosophila melanogaster, Strongylocentrotus purpuratus, Ciona intestinalis, and Homo sapiens. We show that even the earliest metazoan species already have strikingly complex genomes in terms of gene content and functional repertoire and that the rich gene repertoire existed even before the emergence of true tissues, therefore further emphasizing the importance of gene loss and spatio-temporal changes in regulation of gene expression in shaping the metazoan genomes. Our findings further indicate that sponge and human genes generally show similarity levels higher than expected from their respective positions in metazoan phylogeny, providing direct evidence for slow rate of evolution in both “basal” and “apical” metazoan genome lineages. We propose that the ancestor of all metazoans had already had an unusually complex genome, thereby shifting the origins of genome complexity from Urbilateria to Urmetazoa

Cultivation and sequencing of rumen microbiome members from the Hungate1000 Collection

Productivity of ruminant livestock depends on the rumen microbiota, which ferment indigestible plant polysaccharides into nutrients used for growth. Understanding the functions carried out by the rumen microbiota is important for reducing greenhouse gas production by ruminants and for developing biofuels from lignocellulose. We present 410 cultured bacteria and archaea, together with their reference genomes, representing every cultivated rumen-associated archaeal and bacterial family. We evaluate polysaccharide degradation, short-chain fatty acid production and methanogenesis pathways, and assign specific taxa to functions. A total of 336 organisms were present in available rumen metagenomic data sets, and 134 were present in human gut microbiome data sets. Comparison with the human microbiome revealed rumen-specific enrichment for genes encoding de novo synthesis of vitamin B 12, ongoing evolution by gene loss and potential vertical inheritance of the rumen microbiome based on underrepresentation of markers of environmental stress. We estimate that our Hungate genome resource represents â 1/475% of the genus-level bacterial and archaeal taxa present in the rumen. © 2018 Nature Publishing Group. All rights reserved

Molecular Phylogeny Restores the Supra-Generic Subdivision of Homoscleromorph Sponges (Porifera, Homoscleromorpha)

Homoscleromorpha is the fourth major sponge lineage, recently recognized to be distinct from the Demospongiae. It contains <100 described species of exclusively marine sponges that have been traditionally subdivided into 7 genera based on morphological characters. Because some of the morphological features of the homoscleromorphs are shared with eumetazoans and are absent in other sponges, the phylogenetic position of the group has been investigated in several recent studies. However, the phylogenetic relationships within the group remain unexplored by modern methods.Here we describe the first molecular phylogeny of Homoscleromorpha based on nuclear (18S and 28S rDNA) and complete mitochondrial DNA sequence data that focuses on inter-generic relationships. Our results revealed two robust clades within this group, one containing the spiculate species (genera Plakina, Plakortis, Plakinastrella and Corticium) and the other containing aspiculate species (genera Oscarella and Pseudocorticium), thus rejecting a close relationship between Pseudocorticium and Corticium. Among the spiculate species, we found affinities between the Plakortis and Plakinastrella genera, and between the Plakina and Corticium. The validity of these clades is furthermore supported by specific morphological characters, notably the type of spicules. Furthermore, the monophyly of the Corticium genus is supported while the monophyly of Plakina is not.As the result of our study we propose to restore the pre-1995 subdivision of Homoscleromorpha into two families: Plakinidae Schulze, 1880 for spiculate species and Oscarellidae Lendenfeld, 1887 for aspiculate species that had been rejected after the description of the genus Pseudocorticium. We also note that the two families of homoscleromorphs exhibit evolutionary stable, but have drastically distinct mitochondrial genome organizations that differ in gene content and gene order

Mise en œuvre expérimentale d'impacts basse vitesse sur matériau énergétique

Les matériaux énergétiques présentent un caractère sensible aux sollicitations mécaniques, chimiques ou thermiques " faibles ", dont l'origine est probablement liée à un endommagement microstructural progressif du matériau. La butalite analysée dans le cadre de notre étude est un propergol composite, constitué de grains de perchlorate d'ammonium et d'une matrice polymérique de type PBHT. Pour décrire la réponse thermo-mécanique sous faible choc de ce matériau à l'échelle mésoscopique, nous réalisons des essais d'impacts basse vitesse à la tour de chute, sous différentes configurations expérimentales, en couplant un enregistrement par caméra rapide à une analyse ante- et post-mortem de l'échantillon par microtomographie X. Plusieurs modifications d'une tour de chute classique ont été effectuées afin de mettre en œuvre la vidéo rapide et d'explorer le maximum de configurations expérimentales possibles. Les résultats des essais de validation de la version modifiée du dispositif nous permettent d'envisager des campagnes d'essais permettant de récupérer les données nécessaires à l'identification et à la caractérisation des mécanismes d'endommagement pouvant servir de points chauds pour l'initiation d'une réaction sous faible choc

BLEVE Overpressure: Multiscale Comparison of Blast Wave Modeling

International audienceBLEVE overpressure modeling has been already widely studied but only few validations including the scale effect have been made. After a short overview of the main models available in literature, a comparison is done with different scales of measurements, taken from previous studies or coming from experiments performed in the frame of this research project. A discussion on the best model to use in different cases is finally proposed

Modeling blast waves, gas and particles dispersion in urban and hilly ground areas

International audienceThe numerical simulation of shock and blast waves as well as particles dispersion in highly heterogeneous media such as cities, urban places, industrial plants and part of countries is addressed. Examples of phenomena under study are chemical gas products dispersion from damaged vessels, gas dispersion in urban places under explosion conditions, shock wave propagation in urban environment. A three-dimensional simulation multiphase flow code (HI2LO) is developed in this aim. To simplify the consideration of complex geometries, a heterogeneous discrete formulation is developed. When dealing with large scale domains, such as countries, the topography is considered with the help of elevation data. Meteorological conditions are also considered, in particular regarding complex temperature and wind profiles. Heat and mass transfers on sub-scale objects, such as buildings, trees and other obstacles are considered as well. Particles motion is addressed through a new turbulence model involving a single parameter to describe accurately plumes. Validations against experiments in basic situations are presented as well as examples of industrial and environmental computations. (C) 2014 Elsevier B.V. All rights reserved

An experimental study on vapor cloud explosion of propane-oxygen stoichiometric mixture

International audienceVapor cloud explosions (VCEs) are serious hazards in refining and petrochemical industries. Statistics indicate that 75% of the total losses were caused by explosion so that considerable research effort has been focused on this subject. Consequences of an explosion are aerial overpressure and impulse, responsible for injury to humans and structures. Many studies were performed with fuel-air explosions but few works focused on fuel-oxygen mixtures explosion. In this study, experiments were performed on a large experimental field. In order to represent realistic conditions, the shape of the gas envelope was elongated like the dispersion shape from leakage with small wind. The flammable cloud was ignited with SEMTEX explosive charges put at the center of the gas volume envelopes. Overpressure values were collected at different positions on the field. Flame propagation was recorded by high speed camera and gave a constant velocity of 2384 m.s-1 , indicating a detonation regime

Development of an experimental device for low velocity impacts on energetic material

Energetic materials are sensitive to “low” mechanical, chemical and thermal stresses, whose origin is probably linked to their microstructural damaging. The present study focuses on a composite propellant composed of ammonium perchlorate grains in a polyurethane binder (HTPB). To describe the thermo-mechanical behavior of this material, at the mesoscopic scale under low impact, drop weight tests are carried out under various experimental configurations, adding a high speed camera recorder and ante- and post-mortem X-ray microtomographies. Several modifications of the usual device are developed in order to explore as many experimental configurations as possible. Results obtained during validation tests of the modified device enable us to consider that it can give the required data for the identification and characterization of the damage mechanisms that could be part of the hot spots initiation process and reaction ignition under low impact