Gotowa bibliografia na temat „Huiles végétales – Environnement”
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Artykuły w czasopismach na temat "Huiles végétales – Environnement"
Morin-Rivat, Julie. "Des arbres et des hommes : nouvelles perspectives sur les relations entre l’Homme et son environnement dans les forêts humides d’Afrique centrale à l’Holocène récent". BOIS & FORETS DES TROPIQUES 335 (15.03.2018): 73. http://dx.doi.org/10.19182/bft2018.335.a31501.
Pełny tekst źródłaRozprawy doktorskie na temat "Huiles végétales – Environnement"
Bouharoun, Samir. "Comportement tribologique des huiles de décoffrage à l'interface béton/coffrage : influence de la formulation du béton". Electronic Thesis or Diss., Artois, 2011. http://www.theses.fr/2011ARTO0209.
Pełny tekst źródłaIn a context where sustainable development has become a major priority, the companies in the building field must face to new requirements in terms of respect of the environment. In particular, during the concrete pouring, a mineral release agent, poorly biodegradable is currently used as separating layer non-stick. The nature of this oil creates significant risks of environmental pollution. New formulations of release agent of vegetable origin were developed.The appearance of this new product range requires a sufficient knowledge of their behavior at the interface concrete/release agent/formwork. This report contributes to the study the effect of the concrete composition on the tribological behavior at the interface concrete/formwork with two release agents of different nature (vegetable release agent and mineral release agent). The zone of concrete near the formwork was studied without release agents. First, the evolution of the density of the concrete at the approach of a wall was evaluated as a function of the contact pressure and the past volume. Then, a comprehensive analysis of this fresh layer was carried out to estimate the W/B ratio and the amount of paste mobilized close to the formwork. A physicochemical study was performed by reconstituting the interstitial medium of the interface concrete/release agent/formwork containing a different dosage of oil and superplasticizer. Several adapted techniques to these complex medium were used to evaluate the formation of soaps and to determine the stability of the obtained emulsions. This thesis ends with a study of the friction of fresh concrete against the formwork with and without release agent using a plan/plan tribometer. Many formulations of concrete are studied. The results were allowed to understand the mechanism of action of the fines element and the dosage of superplasticizer at the interfaces concrete/formwork and concrete/release agent/formwork. In the case of vegetable release agent, the soap formed from the esters and fatty acids contributes to reduce the friction by stabilizing the emulsion and organizing the interface. However, the presence of the superplasticizer is necessary to obtain a high performance for the mineral release agent
Agius, Dominique. "Biodégradabilité et devenir d'une huile adjuvante d'origine végétale dans le sol : élaboration d'un projet de norme AFNOR". Toulouse, INPT, 2000. http://www.theses.fr/2000INPT005C.
Pełny tekst źródłaEcochard, Yvan. "Élaboration de polymères 100 % biosourcés pour matériaux composites à impact environnemental réduit". Thesis, Montpellier, 2019. http://www.theses.fr/2019MONTS070.
Pełny tekst źródłaDIAM Bouchage develops composites from cork flour and binder in order to produce technological cork-stoppers carried out by a molding process. To get rid of the use of isocyanates for polyurethanes synthesis, new pathways for 100% biobased polymers without the use of CMR substances are considered. As the most promising route for Non-Isocyanate PolyUrethanes (NIPUs) synthesis, Polyhydroxyurethanes (PHUs) have been chosen. The presented study concerns the synthesis, the characterization and the formulation of a new PHU binder from cyclocarbonates and amines.Among available biobased reactants and synthetic pathways, few monomers have been selected in accordance with specifications. This has led to PHUs materials and cork-stoppers development to identify the best formulations. New hybrids routes have finally been developed to overcome PHUs limitations such as reactivity and conversion. Acrylates have been used as reactive additives or cross-linkers for PHU-amino telechelic prepolymers. New cyclic carbonates monomers of low viscosity and high functionality have also been synthesized to solve process issues
Tachon, Nadine. "Nouveaux types de liants routiers à hautes performances, à teneur en bitume réduite par addition de produits organiques issus des agroressources". Toulouse, INPT, 2008. http://ethesis.inp-toulouse.fr/archive/00002719/01/tachon.pdf.
Pełny tekst źródłaBitumen and its use in road engineering have been studied to substitute flux oil by biomass byproducts. Adding vegetable oil emulsion stabilized by natrium oleat to hot bitumen enables bituminous binder foam expansion. By optimizing surfactant rate, water to oil ratio and water quantity, we formulated an emulsion allowing formation of bituminous foam and expansion ratio increase. This binder in foaming form, was used at a lower than 120°C temperature to prepare bituminous coatings or to reuse old bituminous coatings. The vegetable oil, part of the binder, should reactivate old bitumen. Some experiments carried out on old bituminous coatings have shown the potential of this new binder. An advanced analytical study with high resolution mass spectrometry have been carried out
Bouharoun, Samir. "Comportement tribologique des huiles de décoffrage à l'interface béton/coffrage : influence de la formulation du béton". Thesis, Artois, 2011. http://www.theses.fr/2011ARTO0209/document.
Pełny tekst źródłaIn a context where sustainable development has become a major priority, the companies in the building field must face to new requirements in terms of respect of the environment. In particular, during the concrete pouring, a mineral release agent, poorly biodegradable is currently used as separating layer non-stick. The nature of this oil creates significant risks of environmental pollution. New formulations of release agent of vegetable origin were developed.The appearance of this new product range requires a sufficient knowledge of their behavior at the interface concrete/release agent/formwork. This report contributes to the study the effect of the concrete composition on the tribological behavior at the interface concrete/formwork with two release agents of different nature (vegetable release agent and mineral release agent). The zone of concrete near the formwork was studied without release agents. First, the evolution of the density of the concrete at the approach of a wall was evaluated as a function of the contact pressure and the past volume. Then, a comprehensive analysis of this fresh layer was carried out to estimate the W/B ratio and the amount of paste mobilized close to the formwork. A physicochemical study was performed by reconstituting the interstitial medium of the interface concrete/release agent/formwork containing a different dosage of oil and superplasticizer. Several adapted techniques to these complex medium were used to evaluate the formation of soaps and to determine the stability of the obtained emulsions. This thesis ends with a study of the friction of fresh concrete against the formwork with and without release agent using a plan/plan tribometer. Many formulations of concrete are studied. The results were allowed to understand the mechanism of action of the fines element and the dosage of superplasticizer at the interfaces concrete/formwork and concrete/release agent/formwork. In the case of vegetable release agent, the soap formed from the esters and fatty acids contributes to reduce the friction by stabilizing the emulsion and organizing the interface. However, the presence of the superplasticizer is necessary to obtain a high performance for the mineral release agent