40 research outputs found

    Estabilizante orgánico para PVC. Alternativa eficiente para tubos de PVC

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    Se describen los estabilizantes con base orgánica como alternativa en la fabricación de tubos de PVC en respuesta a consideraciones ambientales y políticas, las cuales exigieron el reemplazo del plomo por alternativas menos contaminantes.

    Halogen-free flame-retardant compounds. Thermal decomposition and flammability behavior for alternative polyethylene grades

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    The effect of six halogen-free flame retardant (FR) formulations was investigated on the thermal stability of two low-density polyethylenes (LDPE) and one linear low-density polyethylene (LLDPE), by means of thermogravimetric analysis (TGA) under nitrogen and air atmosphere. The relative data were combined with flammability properties and the overall performance of the FRs was correlated with the type of branching in the polyethylene grades and to their processing behavior. The thermal degradation kinetics was further determined based on the Kissinger and Coats-Redfern methods. In terms of flammability, the addition of a triazine derivative and ammonium polyphosphate at a loading of 35 wt. %. was found to be the most efficient, leading to UL 94 V0 ranking in the case of the LDPE grade produced in an autoclave reactor. - 2019 by the authors.Funding: This publication was made possible by the NPRP award [NPRP 9-161-1-030] from the Qatar National Research Fund (a member of The Qatar Foundation). The statements made herein are solely the responsibility of the author(s)

    An Integrated Characterization Strategy on Board for Recycling of poly(vinyl butyral) (PVB) from Laminated Glass Wastes

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    : Polyvinyl butyral (PVB) is widely used as an interlayer material in laminated glass applications, mainly in the automotive industry, but also for construction and photovoltaic applications. Post-consumed laminated glass is a waste that is mainly landfilled; nevertheless, it can be revalorized upon efficient separation and removal of adhered glass. PVB interlayers in laminated glass are always plasticized with a significant fraction in the 20-40% w/w range of plasticizer, and they are protected from the environment by two sheets of glass. In this work, the aim is to develop a thorough characterization strategy for PVB films. Neat reference PVB grades intended for interlayer use are compared with properly processed (delaminated) post-consumed PVB grades from the automotive and construction sectors. Methods are developed to open opportunities for recycling and reuse of the latter. The plasticizer content and chemical nature are determined by applying well-known analytical techniques, namely, FT-IR, TGA, NMR. The issue of potential aging during the life cycle of the original laminated material is also addressed through NMR. Based on the findings, a sensor capable of directly sorting PVB post-consumer materials will be developed and calibrated at a later stage

    Benefits of radical generators in flame retarded polymers: Review and new developments

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    Radical generators as synergists in flame retarded polymers have been used in combination with brominated flame retardants for decades. However, due to the low thermal stability of radical generators under the usual polymer processing conditions the use was limited to selected applications e.g. in polystyrene foams. The need to find efficient halogen free flame retardants resulted inter alia in the discovery and commercialization of hindered amine light stabilizers based on alkoxyamines (NOR-HALS). NOR-HALS provide flame retardancy of polypropylene and polyolefin fibers, non-wovens and films. The performance of the NOR molecules depends on their structure i.e. the capability to degrade into nitroxyl plus alkyl or aminyl plus alkoxy radicals. Through formation of radicals a fast degradation of the polymer chain is induced and flame retardancy is achieved by removing the substrate from the flame. On the other hand, the formed radicals are involved in the free radical chemical reactions during the combustion process. Furthermore, alkoxy amines can interact with brominated flame retardants and facilitate the release of bromine, consequently increasing the overall FR performance. Therefore, it is possible with NORs to design flame retardant polyolefin molding compositions with lower levels of halogenated flame retardants and, in addition, to eliminate antimony trioxide. Moreover the hindered amine (HALS) structure provides light and long-term thermal stability of flame retarded formulations. Following the success of NOR based flame retardants a number of alternative radical generator molecules have been identified namely azo compounds, triazenes, hydrazones and azines. Especially combinations of Azo and NOR structures in one molecule show increased performance at loadings as low as 0.5 % in polypropylene films, including light and long-term thermal stability, and act synergistically with halogen, phosphorus and inorganic flame retardants. Although the performance of alkoxyamines in thin sections such as films is well documented and the UL 94 V-2 classification is often obtained in moldings, formulations usually fail in achieving the UL 94 V-0 classification as burning drips cannot be avoided despite short burning times. For the first time a new class of nitrogen based radical generators can be presented whereas in combination with selected phosphorus derivatives flame retarded polypropylene with UL 94 V-0 classification is accessible. Thermal stability and degradation of the new class into radicals is correlated to the molecular structure and can be adjusted in line with the degradation of the polymer and the synergist. Moreover the necessary loadings to achieve UL 94 V-0 are below 10 %

    (Photo)oxidative stabilization of flame-retarded polymers

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    Flame-retarded polymer formulations are mainly used in long-term applications whereas antioxidants, light stabilizers, and other additives provide the requested lifetime of plastic materials. However, many flame retardants influence the oxidative and photooxidative stability of polymers often in a negative way resulting in early failure and loss in value. On the other side, insufficient (photo)oxidative stability of the flame retardant itself may reduce the flame retardance performance over time. Therefore, depending on the type of flame retardant used, the polymer substrate and the intended application adjusted stabilizer systems have to be selected or developed.In this chapter, challenges of the stabilization of flame-retarded polymers are analyzed with regard to the components and mutual interactions with focus on "green" flame retardants. Processing and long-term thermal stabilization of flame-retarded polymers are discussed and strategies of improving the light sta bility of flame-retarded polymers are provided. Additionally, the specific requirements of the stabilization of nanocomposites as potential flame-retardant components are covered

    Improving the quality of recycled materials: An overview of suitable additives

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    Additives for improving the quality of recycled materials are now established products and a permanent fixture in many a company’s product portfolio. With the right additives, such as stabilizers, compatibilizers and reactive additives, recycled materials can attain a level of properties that enables them to compete with virgin materials

    Additive - der Schlüssel für Kunststoff-Innovationen: Leichtbau mit Kunststoffen

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    Leistungsfähige Additive sind der Schlüssel zu Innovationen und Garanten für den dauerhaften Einsatz von Kunststoffen. Umso wichtiger ist das Wissen zur Entwicklung von vollformulierten Kunststoffsystemen. Der Bereich Kunststoffe im Fraunhofer-Institut für Betriebsfestigkeit und Systemzuverlässigkeit LBF bietet dieses Know-how von der chemischen Material-Analytik über die physikalische Charakterisierung bis hin zu praxisnahen Rezepturempfehlungen und der Synthese neuer maßgeschneiderter Zusatzstoffe

    Catalyzed solid-state polyamidation

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