Morfologia e propriedades térmicas de compósitos de HDPE/EVA com POSS

Scapini, Patrícia

24 September 2008

Neste trabalho foram estudados compósitos que apresentam como matriz polimérica uma blenda composta por polietileno de alta densidade (HDPE) e copolímero etileno acetato de vinila (EVA) e como nanocarga, silsesquioxano poliédrico oligomérico (POSS). Os compósitos foram processados em câmara de mistura fechada e caracterizados quanto às propriedades térmicas e morfológicas. Para a preparação dos compósitos foram variadas as concentrações dos componentes da blenda (0, 25, 50, 75 e 100%) e da nanocarga (0, 0,5, 1, 1,5, 2, 5 e 10%). Os resultados de processamento mostraram que o aumento da concentração de POSS na matriz polimérica provocou a agregação do mesmo na matriz polimérica. As análises de calorimetria diferencial de varredura e termogravimetria indicaram que o POSS não afetou as temperaturas de fusão, cristalização e degradação da matriz polimérica. Os resultados de raios X indicaram que a presença do EVA no compósito promoveu o aparecimento de domínios cristalinos em concentrações menores de POSS. A microscopia eletrônica de varredura indicou que as amostras com 1% de POSS apresentam distribuição homogênea na matriz polimérica. Por outro lado, ocorreu a formação de agregados nas amostras com 5% de POSS. Os valores de Tg obtidos por análise térmica dinâmico-mecânica indicaram que o POSS causou um efeito plastificante na fase HDPE e uma redução da mobilidade na fase EVA. Ocorreu um aumento nos valores de módulo de armazenamento com a incorporação de POSS na matriz polimérica. / In this study composites with a polymeric matrix comprising a blend of high density polyethylene (HDPE) and the copolymer ethylene vinyl acetate (EVA), and with polyhedral oligomeric silsesquioxane (POSS) as the nanoclay, were processed and characterized. The composites were processed in a closed mixing chamber and characterized in terms of their thermal and morphological properties. For the preparation of the composites the concentrations of the blend components (0, 25, 50, 75 and 100%) and of the nanoclay (0, 0.5, 1, 1.5, 2, 5 and 10%) were varied. The results of the processing showed that an increase in the POSS concentration in the polymeric matrix caused the aggregation of the system. The differential scanning calorimetry and thermogravimetry analyses indicated that the POSS did not affect the melt, crystallization and degradation temperatures of the polymeric matrix. The X-ray results indicated that the presence of EVA in the composite led to the appearance of crystalline domains at lower POSS concentrations. Scanning electron microscopy indicated that the samples with 1% of POSS have a homogeneous distribution in the polymeric matrix. However, the formation of aggregates occurred in samples with 5% of POSS. The Tg values obtained from the thermo dynamic mechanical analysis indicated that the POSS had a plasticizing effect on the HDPE phase and caused a reduction in the mobility of the EVA phase. There was an increase in the storage modulus values with the incorporation of POSS into the polymeric matrix.

Engenharia

Polietileno de alta densidade (HDPE)

Compósitos

Morfologia

Propriedades térmicas

High density polyethylene (HDPE)

Copolymer ethylene vinyl acetate (EVA)

Avaliação do uso de um polietileno de alta densidade e baixo peso molecular oxidado como agente de compatibilização em asfalto modificado com copolímero SBS / Analysis of the use of an oxidized, high-density polyethylene with low molecular weight as a compatibilizing agent in asphalt binders modified with SBS copolymer

Lucas Lauer Verdade

26 August 2015

O copolímero SBS é o aditivo mais empregado mundialmente na modificação de ligantes asfálticos, por melhorar diversas de suas características. Um dos principais problemas deste tipo de formulação é a separação de fases, que pode ser minimizada com a incorporação de aditivos. Um novo polietileno de alta densidade e baixo peso molecular oxidado (com denominação comercial TITAN 9686) foi utilizado nesta pesquisa, com o objetivo de testar a hipótese de que a adição de proporções adequadas deste aditivo possa melhorar as características reológicas do asfalto+SBS. O experimento laboratorial foi delineado com base na técnica de experimentos com misturas, englobando um total de nove formulações compostas com asfalto, SBS e TITAN. O teor de SBS variou entre 0 e 5% em peso e o de polietileno variou entre 0 e 2% em peso. Foi utilizado óleo aromático no teor de 4% em peso para todas as nove misturas. As misturas foram analisadas em três condições de envelhecimento: virgem, curto prazo (na estufa RTFO) e longo prazo (na estufa PAV). Foram realizados os seguintes ensaios reológicos: (i) de cisalhamento em regime oscilatório em diferentes condições de temperatura e frequência (para medida do módulo complexo e do ângulo de fase, usados na determinação do grau de desempenho, no cálculo dos parâmetros G*/sen(δ) e G*.sen(δ) e na construção de curvas-mestre), (ii) de viscosidade Brookfield, (iii) de fluência e recuperação sob múltiplas tensões (para medida do percentual de recuperação e da compliância não-recuperável), (iv) de varredura de amplitude linear (para cálculo do parâmetro a f e para ajuste do modelo de fadiga) e (v) de estabilidade à estocagem. Acerca das características escolhidas para mensurar a melhora ou piora das propriedades das misturas asfalto+SBS com a adição de TITAN, podem ser feitas as seguintes observações: (i) a estabilidade à estocagem é melhorada com a adição de TITAN, em particular no teores entre 1 e 2%; (ii) a sensibilidade ao envelhecimento tanto a curto quanto a longo prazos diminui com a adição de TITAN; (iii) a adição de TITAN aumenta a resistência à deformação permanente, à luz dos parâmetros Jnr e R e aumenta a sensibilidade dos ligantes asfálticos modificados com SBS a mudanças bruscas nos níveis de tensão aplicados; e (iv) a adição de TITAN contribui com o aumento da resistência à fadiga, à luz dos parâmetros Nf , a baixos níveis de deformação, e af , e a prejudica reduzindo o parâmetro Nf a altos níveis de deformação e aumentando a temperatura crítica de fadiga ou o parâmetro G*.sen(δ). Tendo por base estas evidências, é possível concluir que a adição de TITAN, em linhas gerais, melhorou a estabilidade dos ligantes asfálticos modificados com até 5,0% de SBS. Com base nas análises realizadas, é possível afirmar que teores da ordem de 1 a 2% de TITAN, para teores de SBS entre 3,0 e 5,0%, são recomendáveis, à luz das propriedades, índices e parâmetros analisados neste trabalho. / The SBS copolymer is the most widely used additive in asphalt binder modification, since it enhances many of the properties of the original material. A critical problem that arises from this type of modification is phase separation, which can be minimized by adding other modifiers to the formulation. A new oxidized, high-density polyethylene with low molecular weight (commercial designation of \"TITAN 9686\") was used in the study with the purpose of verifying the hypothesis that the addition of suitable contents of this modifier can improve the rheological properties of the SBS-modified binder. The laboratory matrix of formulations was based on the experiments with mixtures, and nine types of materials were prepared with asphalt binder, SBS and TITAN. The SBS contents ranged from 0 to 5% by weight, whereas the polyethylene contents ranged from 0 to 2% by weight. These formulations also contained 4% of aromatic oil by weight. Three aging conditions were selected: unaged, short-term aged in the rolling thin-film oven (RTFO) and long-term aged in the pressurized aging vessel (PAV). The following tests were carried out: (i) dynamic oscillatory shear at different temperatures and frequencies of loading for the determination of the complex modulus, the phase angles and the master curves, as well as the performance grades and the numerical values of the parameters G*/sin(δ) and G*.sen(δ); (ii) rotational viscosity; (iii) creep and recovery at multiple stress levels for the determination and the percent recovery and the nonrecoverable compliance; (iv) linear amplitude sweep, in order to calculate the parameter a f and fit the fatigue model to the data; and (v) storage stability. With respect to the characteristics used in the evaluation of the properties of the AC+SBS mixtures after the addition of TITAN, the following observations can be made: (i) storage stability is improved when TITAN is added to the formulation, especially at contents ranging from 1 to 2%; (ii) the sensitivity to the short-term and long-term aging processes decreased with the incorporation of TITAN; (iii) the changes in the R and the Jnr values indicate that the addition of TITAN makes the asphalt binder more resistant to rutting, and also increases the sensitivity of the SBS-modified binders to sudden increases in the stress level; and (iv) the presence of TITAN in the material leads to an increase in the fatigue resistance as based on the parameters Nf and af at low strain levels and the increases in the critical fatigue temperature and the parameter G*.sen(δ). With reference to these evidences, it is possible to conclude that the addition of TITAN generally improves the storage stability of the SBS-modified binders with no more than 5% of copolymer by weight. Based on the results of the present study, it is possible to say that percentages between 1 and 2% of TITAN by weight are recommended for SBS contents between 3 and 5% by weight.

Curva-mestre

Ensaios reológicos

Estabilidade à estocagem

Ligante asfáltico modificado com SBS

Master curve

Rheological tests

SBS-modified asphalt binder

Storage stability

Avaliação da espectrometria de emissão óptica com plasma induzido por laser (LIBS) para a análise de embalagens plásticas / Evaluation of the laser induced breakdown spectrometry for the analysis of plastics packaging

Flávio de Oliveira Leme

13 December 2011

LIBS é um método baseado na espectrometria de emissão óptica que emprega a microamostragem por ablação por laser e formação de um microplasma para a determinação dos elementos químicos presentes na amostra. Neste trabalho, o método foi avaliado para a análise de embalagens plásticas produzidas com polietileno de alta densidade e polipropileno. A construção de curvas de calibração com amostras dos polímeros contendo diferentes concentrações de Cd, Cr e Pb e a determinação desses analitos, assim como os efeitos da taxa de repetição do laser, número de pulsos, fluência e diâmetro de focalização foram estudados. O sistema LIBS utilizado foi composto por um laser pulsado de Nd:YAG operando a 064 nm, com pulsos de 5 ns e máxima energia de 360 mJ/pulso. Os sinais de emissão foram coletados por um conjunto de lentes acoplado por fibra óptica ao espectrômetro com montagem Echelle e detector ICCD. Os parâmetros instrumentais foram ajustados em 10 pulsos acumulados, 2 \'mü\'s de atraso e 6 \'mü\'s de integração. O software ESAWIN, o banco de dados de espectros atômicos e iônicos do NIST e algoritmo desenvolvido em ambiente MATLAB® foram utilizados para aquisição e tratamento dos dados. A avaliação da topografia das crateras nas placas dos polímeros foi feita por perfilometria e microscopia eletrônica de varredura, que proporcionaram informações úteis para a caracterização das crateras. As massas removidas das placas de polietileno de alta densidade e de polipropileno foram calculadas a partir dos volumes das crateras obtidos pelas análises perfilométricas. A taxa de repetição e número de pulsos do laser tiveram efeitos marcantes na ablação dos polímeros, e as principais causas foram atribuídas ao grau de cristalinidade, à temperatura de fusão cristalina (Tm) e à temperatura de transição vítrea (Tg). Os resultados desta tese indicaram que diâmetros de focalização da ordem de 600 \'mü\'m e fluências entre 50 e 85 J cm-2 podem ser recomendados para análises de PEAD e PP por LIBS com laser de Nd:YAG@1064 nm (pulsos de 5 ns) e taxa de repetição de 10Hz. Nessas condições, as curvas de calibração obtidas apresentaram boa correlação. Identificaram-se três amostras contaminadas por Cd, Cr e Pb dentre 60 embalagens plásticas analisadas. A comparação dos resultados obtidos por LIBS e ICP OES apresentou concordâncias e algumas diferenças significativas (teste t ao nível de 95% de probabilidade) que foram associadas a efeitos de matriz observados na análise dos polímeros por LIBS / LIBS is an optical emission spectroscopy technique that employs a laser for micro sampling and induction of a plasma for determination of chemical elements in a sample. In this work, LIBS was evaluated for the analysis of plastic packaging produced with high density polyethylene (HDPE) and polypropylene (PP). Plates of these polymers with different concentrations of Cd, Cr and Pb were prepared for evaluating the effects of laser repetition rate, number of pulses, fluence and laser focusing as well as for building the analytical calibration curves. The LIBS system was designed by using a Q-Switch Nd:YAG laser operating at 1064 nm (5 ns, 360 mJ/pulse) and the emission signals were collected by lenses into an optical fiber coupled to a high-resolution echelle spectrometer equipped with ICCD. Instrumental parameters consisted of 10 accumulated laser pulses, 2 \'mü\'s delay time and 6 \'mü\'s integration time gate. Software ESAWIN, NIST atomic database and an algorithm develop in MATLAB® were used for acquisition and data processing. The evaluation of topographical features of craters on the plates of the polymers was carried out by perfilometry and scanning electron microscopy, and provides useful information for the characterization of the craters. The mass removal of HDPE and PP were calculated using craters volume obtained in perfilometric analysis. The repetition rate and number of laser pulses affect the ablation process in polymers. Moreover, the main properties of polymers that affect the ablation are degree of crystallinity, crystalline melting temperature (Tm) and glass transition temperature (Tg). The results indicated that laser focusing of 610 \'mü\'m and fluences between 50 and 85 J cm-2 can be indicated for LIBS analysis of HDPE and PP with Nd:YAG@1064 nm, 5 ns and 10 Hz. Under these conditions the calibration curves obtained presented good correlations and 3 samples containing Cd, Cr and Pb were identified from 60 samples from the local market. LIBS results compared well with ICP OES but some data presented significant differences by applying a t-test at 95 % confidence level, which were mainly associated to matrix effects observed in the analysis of polymers by LIBS

Cádmio

Chumbo

Crômio

Embalagens plásticas

LIBS

Polietileno de alta densidade

Polipropileno

Cadmium

Chromium

High density polyethylene

Laser induced breakdown spectroscopy

Lead

LIBS

Plastics packaging

Polypropylene

The influence of reactive modification on the compatibility of polyolefins with non-olefinic thermoplastics

Lim, Henry C. A.

January 2011

Polyethylene (PE) resins being non-polar in nature and having a high degree of crystallinity have limited miscibility and compatibility when blended with polar polymers. The miscibility and compatibility of these blends are generally worsened when they are prepared by direct injection moulding without a precompounding process. Such situations are commonly encountered in particular by polymer converters when blending colour and/or additive concentrates, commonly known as masterbatches. Typically, masterbatches are mixtures containing high loading of pigments and/or additives predispersed in a suitable solid vehicle (commonly known as carrier) such as a polyethylene resin. These masterbatches are usually used for the colouration of a wide range of polymers and the carrier used must therefore be compatible with these matrix (host) polymers. The preliminary stage of this study involved the investigation of the properties of blends based on high density polyethylene (HDPE) and a range of engineering thermoplastics (ABS, PC, PBT, PA6), prepared by injection moulding. Five different types of compatibilisers namely, ethylene-vinyl acetate (EVA) copolymer, ethylene-methyl acrylate (EMA) copolymer, ethylene-glycidyl methacrylate (E-GMA) copolymer, ethylene-methyl acrylateglycidyl methacrylate (E-MA-GMA) terpolymer and maleic anhydride grafted HDPE (HDPE-g-MAH) copolymer were evaluated with respect to their efficiencies in compatibilising HDPE with the four engineering polymers. The pre-compounded HDPE/compatibiliser binary blends at 2 different blend ratios (1:1 and 3:1) were added at 15 wt% concentration to each engineering thermoplastics and test samples were produced directly by injection moulding. Results of mechanical testing and characterisation of the blends showed that glycidyl methacrylate compatibilisers, E-MA-GMA, in particular have the most universal compatibilising effectiveness for a range of engineering thermoplastics including ABS, PC, PBT, and PA6. Blends compatibilised with E-MA-GMA compatibiliser had the best notched impact performance irrespective of matrix polymer type. The presence of an acrylic ester (methyl acrylate) comonomer in E-MA-GMA resulted in increased polarity of the ii compatibiliser leading to improved miscibility with the polar matrix polymers demonstrated by fine blend morphologies, melting point depression and reduction in crystallinity of the HDPE dispersed phase. The second stage of this study involved the reactive modification of HDPE using a low molecular weight di-functional solid diglycidyl ether of bisphenol A (DGEBA) type epoxy resin compatibilised with HDPE-g-MAH in an attempt to improve its compatibility with ABS, PBT and PA6. The maleic anhydride moieties in HDPE-g-MAH served as reactive sites for anchoring the epoxy moieties while the HDPE backbone was miscible with the HDPE resin. An excessive amount of reactive groups resulted in the formation of crosslinked gels while the addition of EVA co-compatibiliser helped in the reduction of gel content and further improved the dispersion of the epoxy. The effectiveness of epoxy grafted HDPE (with and without EVA co-compatibiliser) in compatibilising ABS/HDPE, PBT/HDPE, and PA6/HDPE was investigated by injection moulding of 5 wt% functionalised HDPE with these matrix polymers into test bars for mechanical testing, and characterisation by differential scanning calorimtery (DSC) and optical microscopy. The reactively functionalised HDPE blends, improved the mechanical properties of ABS and PA6 blends especially with EVA as co-compatibiliser. However, the mechanical properties of PBT blends were unmodified by the functionalised HDPE which was believed to be due to end-capping of the PBT chain-ends by ungrafted epoxy resins.

668.4

Foodyplast, des emballages plastiques alimentaires avec des additifs naturels et recyclables / Foodyplast, food plastic packaging with naturals additives and recyclable

Garcia Contreras, Antonio

20 June 2019

Les matières plastiques ont désormais envahi notre quotidien. Elles sont le symbole de la société de consommation, car elles sont considérées comme un matériau non noble : les consommateurs l'assimilent à un produit jetable après usage. N'étant pas dégradables, les plastiques représentent donc un réel danger pour l'environnement, la faune et la flore.L’objectif de ce travail de thèse a été de développer en collaboration avec l’Institut des Sciences Analytiques et de Physico-Chimie pour l'Environnement et les Matériaux (Université de Pau) de nouvelles formulations avec des additifs naturels pour obtenir des plastiques résistants et recyclables. Deux types de résines ont été utilisées : le polypropylène isotactique (i-PP) et le polyéthylène à basse densité (LDPE). Des antioxydants naturels tels que l’acide ascorbique, l’alpha-tocophérol et l’huile de lin ont été testés et leur encapsulation a permis d’améliorer leur résistance à la dégradation. Les caractérisations thermique et rhéologique des résines ont montré des qualités supérieures aux résines commerciales actuelles. Nous avons pu démontrer que les plastiques obtenus pouvaient être recyclés 9 fois sans perte de leurs caractéristiques. Des essais avec des barquettes fabriquées avec les produits élaborés sont en cours pour valider les modèles développés. / Plastics have now invaded our daily lives. They are the symbol of the consumer society, because they are considered a non-noble material: consumers equate it with a disposable product after use. Since plastics are not degradable, they represent a real danger to the environment, fauna and flora.The objective of this thesis work was to develop in collaboration with the Institute of Analytical Sciences and Physico-Chemistry for Environment and Materials (Pau University) new formulations with natural additives to produce resistant and recyclable plastics. Two types of resins were used: isotactic polypropylene (i-PP) and low density polyethylene (LDPE). Natural antioxidants such as ascorbic acid, alpha-tocopherol and flaxseed oil were tested and encapsulated to improve their resistance to degradation. Thermal and rheological characterizations of resins have shown superior qualities to current commercial resins. We were able to demonstrate that the plastics obtained could be recycled 9 times without losing their characteristics. Tests with trays made with the developed products are underway to validate the developed models.

Antioxydants naturels

Emballage alimentaire

Transformation des polymères

Stabilité thermique

Recyclabilité

Polyéthylène basse densité

Polypropylène isotactique

Natural antioxidants

Food packaging

Polymer processing

Thermal stability

Recyclability

Low-density polyethylene

Isotactic polypropylene

540

Vliv přídavku recyklátu na strukturu a vlastnosti vysokohustotního polyetylénu / The influence of regranulate on structure and properties of high density polyethylene

Handlíř, Tadeáš

January 2021

The presented diploma thesis deals with the evaluation of the influence of the addition of 30, 60 and 90 % of recycled material on the structure and mechanical properties of high-density polyethylene (HDPE), where recycled material represents both HDPE from a several years old part and material multiple reprocessed by extrusion. The changes of supramolecular structure were examined by calorimetric measurement, which did not indicate degradation of the material due to multiple extrusion. Mechanical properties were investigated by tensile tests and dynamic-mechanical analysis. Both measurements showed the same trend, where the first and second pass of the material through the extruder led to improved mechanical properties, e.g. to increase stiffness, while the influence of the third and fourth passes through the extruder had not a significant effect on the mechanical properties. In terms of the structure and mechanical properties, a positive effect of the combination of material after the second extrusion passing (30%) with virgin material was recorded.

Vliv vybraných povrchově aktivních látek na čas do porušení vysokohustotního polyetylénu metodou napěťového krípu v korozivním prostředí / The influence of detergents on time to failure of high density polyethylene by full notch creep test performed in corrosive bath

Kotoučková, Simona

January 2021

The thesis deals with the study of the influence of concentration and different types of surfactants (Igepal CO-520, Arkopal N110, Igepal CO-890, sodium dodecyl sulfate, sodium dodecylbenzenesulfonate, dodecyltrimethylammonium bromide and Dehyton PL) on the environmental stress cracking resistance of high-density polyethylene by means of Full Notch Creep Test. Furthermore, the influence of ligamental stress (3,5; 4,0 a 4,5 MPa), pH of the prepared active environment and type of the water used as a solvent for the surfactants on the time to failure was monitored. An accelerating effect was observed at increased concentration, stress and molecular weight. Faster failure was achieved after exposure to ionic types compared to nonionic. The rate of the notch opening was determined. The brittle and ductile behavior during the process of failure was evaluated by microscopic analysis of the morphology of the fracture surfaces. Based on the pH change after the test, the stability of the active environment was evaluated. Deteriorating quality of surfactant solutions was observed. Raman spectroscopy and Fourier transform infrared spectroscopy were used to detect the surfactant on the surface of the test specimen after the test.

Fragmentation des plastiques : effet de l’environnement et de la nature du polymère sur la taille et la forme des fragments générés / Fragmentation of plastics : effect of the environment and the nature of the polymer on the size and shape of the generated fragments

Julienne, Fanon

11 December 2019

Les déchets plastiques s'accumulent depuis plusieurs décennies dans les océans où ils se fragmentent en particules appelés microplastiques lorsque leur taille est inférieure à 5 mm. Ces microplastiques sont retrouvés dans toutes les eaux du globe, dans les sédiments ainsi que dans de nombreux organismes marins. Le devenir physicochimique à long terme de ces particules et leur possible fragmentation en nanoplastiques sont complexes, encore peu documentés et nécessitent des études en laboratoire.Afin de comprendre les processus liés à la photodégradation et à la fragmentation des polymères dans l’environnement, mais également dans le but d’'appréhender l’évolution des fragments générés au cours de l’irradiation, un protocole de vieillissement accéléré en milieu abiotique a été mis en place sur des polymères modèles. Le suivi de l’oxydation et de la fragmentation des deux polymères étudiés,polyéthylène basse densité et polypropylène, a été mené à l’aide de techniques spectroscopiques (infrarouge, Raman), DSC, angles de contact, et microscopiques (lumière polarisée, MEB, AFM…).Ce travail a permis de mettre en évidence l’influence significative de l’environnement et de la morphologie initiale des polymères sur leurs cinétiques de vieillissement et leurs mécanismes de fissuration. Ainsi des distributions en nombres, tailles et formes de fragments très différentes ont été obtenues pour les deux polymères selon la présence d’eau. Enfin, après un long temps d’irradiation, des produits de dégradation ont pu être détectés mais la production significative de nanoplastiques n’a pas été démontrée. L'hypothèse d'une taille limite de fragmentation devrait être envisagée. / Plastic wastes have been accumulating for several decades in the oceans where they break up into particles called microplastics when their size is less than 5 mm. These microplastics are found in all earth’s waters, in sediments and in many marine organisms. Their long-term physico-chemical fate and their possible fragmentation into nanoplastics are complex, still poorly documented and require laboratory studies.In order to understand the processes related to photodegradation and fragmentation of polymers, but also in order to understand the evolution of these fragments during irradiation, an accelerated aging protocol in abiotic conditions has been set up. The oxidation and fragmentation of two model polymers, low density polyethylene and polypropylene, were monitored using spectroscopic techniques (InfraRed, Raman), DSC, contact angles and microscopic technics (light microscopy, polarized light, SEM, AFM ...).This work has demonstrated a significant influence of the environment and the initial morphology of the polymers on their kinetics of aging and cracking mechanisms. This lead to significantly different distributions in numbers, sizes and shapes of the generated fragments. Moreover, after a long time of irradiaiton, other degradation products could be detected but the significant production of nanoplastics has not been demonstrated. The possibility of a size limit below which the fragmentation rate of plastics would strongly decrease should be considered.

Polyéthylène basse densité

Polypropylène

Photodégradation

Mécanismes de fragmentation

Environnement de vieillissement

Cristallinité

Macro- Micro- Nano- Plastiques

Low density polyethylene

Polypropylene

Photodegradation

Fragmentation mechanisms

Ageing environment

Crystallinity

Numbers, sizes and shapes distributions

Macro- Micro- Nano- Plastics

620.112 23

Propuesta de mejora del proceso productivo integrando el ciclo DMAMC Y KAIZEN para mejorar la baja eficiencia producida por las mermas en una MYPE de producción de envases plásticos

Javier Flores, Kerly Pamela, Soria Marin, Jose Gerardo

05 December 2020

Este trabajo contribuye a la organización estudiada a mejorar los procedimientos del proceso de laminación (compuestas por BOPP y PEBD) para así reducir las mermas y los productos defectuosos, estas representan un 15% de desperdicios del total de materia prima que ingresa al proceso, sin embargo, con la aplicación de las metodologías se logró reducir a un 6.2% de desperdicios, resultando en ahorros operacionales en el rango de s/. 46,580 al año. La utilización de las fases DMAIC y Lean, cada uno a su manera, son las principales técnicas estratégicas de resolución de problemas en el mundo industrial. La integración de los dos métodos de calidad traerá la herramienta necesaria para eliminar las mermas y mejorar la productividad a través del comportamiento de los trabajadores, el trabajo en equipo y optimizando los procesos. Los gerentes e ingenieros encargados de mejorar las operaciones y los procesos pueden beneficiarse de este documento, ya que puede servir de guía para dirigir la realización de futuros proyectos y la aplicación empírica de sus principios y herramientas. / This work contributes to help the organization studied to improve procedures for the lamination process (compound of BOPP and LDPE) to reduce waste and defective products, represent 15% of waste of all raw material entering To the process, however, with the application of the methodologies was reduced to a 6.2% of waste, resulting in operational savings in the range of s /. 46,580 per year. The use of the DMAIC and Lean phases, each in its own way, are the main strategic techniques for solving problems in the industrial world. The integration of the two quality methods will bring the necessary tool to eliminate the losses and improve the productivity through the behavior of the workers, the team work and optimizing the processes. Managers and engineers in charge of improving operations and processes can benefit from this document as it can guide future projects and the empirical application of their principles and tools. / Trabajo de Suficiencia Profesional

Polipropileno Bi Axialmente Orientado

Polietileno de baja densidad

Envases de plástico

Mypes

Bi Axially Oriented Polypropylene

Low density polyethylene

Plastic bottles

Mechanické vlastnosti a struktura směsí recyklovaného polyetylénu a velmi nízko hustotního polyetylénu / Mechanical properties and structure of blends of recycled polyethylene with linear low density polyethylene

Kocandová, Jana

January 2019

Recycled material produced during three months from packing polyethylene foils coming from three suppliers was analysed together with one recycled material under complaint from the point of melt flow index (MFI), composition and mechanical properties. The addition of linear low density polyethylene (LLDPE) into the recycled material was studied as well. It was measured melt flow index (MFI), Differential scanning calorimetry (DSC) together with Thermogravimetry methods were used to determine composition. Selected materials were pressed to obtain films with the thickness of 1 mm to determine tensile properties. Recycled materials contained 40–65% LLDPE, small amount of polypropylene as well as chalk. The content of LDPE and LLDPE varied within one supplier and thus mechanical properties did. The results showed the difference in quality of PE films separation among all suppliers. The problems with workability of material under complaint were caused by the material composition – the amount of LLDPE predominated. The addition of LLDPE into the recycled material in the range of 5–20 % increased MFI by 13-78%. Mechanical properties of blends rich in LLDPE were similar to those of clear LLDPE. The presence of LDPE influenced more markedly only the strength to break. The blends of LDPE and LLDPE were evaluated as immiscible but with high affinity of the components with increasing contend of LLDPE. No material was chemically degraded. The methods commonly performed in manufacture, especially MFI, are not able to differentiate LDPE form LLDPE – recommended is DSC.