Gas transport properties of poly(n-alkyl acrylate) blends and modeling of modified atmosphere storage using selective and non-selective membranes

Kirkland, Bertha Shontae, 1976-

29 August 2008

The gas transport properties of side-chain crystalline poly(n-alkyl acrylate) and poly(m-alkyl acrylate) blends are determined as a function of temperature for varying side-chain lengths, n and m, and blend compositions. The side chains of poly(n-alkyl acrylate)s crystallize independently of the main chain for n [is greater than or equal to] 10 which leads to an extraordinary increase in the permeability at the melting temperature of the crystallites. The compatibility of these polymers are examined and macroscopic homogeneity is observed for a small range of n and m when the difference /n - m/ is between 2 - 4 methylene units. Thermal analysis shows that the blend components crystallize independently of one another; at the same time, the crystallization of each component is hindered by the presence the other component. The permeation responses of these blends show two distinct permeation jumps as the crystallites from each component melt at their respective melting temperatures. Blends with continuous permeation responses are found to have higher effective activation energies than observed for common polymers. Thermal analysis proved to be a useful tool to help predict the permeation response for poly(alkyl acrylates); thus the thermal behavior of poly(n-alkyl acrylate) blended with n-aliphatic materials and random copolymers of poly(n-alkyl acrylates) are briefly examined. A bulk modified atmospheric storage design is proposed where produce is stored in a rigid chamber that is equipped with both selective and non-selective membrane modules that help regulate the oxygen entering and the carbon dioxide leaving the produce compartment. The design enables control of the atmosphere inside the chamber by modulating gas flow, i.e. the gas flow rate and composition, through the non-selective membrane by delivering fresh air upstream of the non-selective membrane. The model shows that the choice of materials for the selective and non-selective membranes dictate the range of concentrations achievable; however, the air flow rate allows the control between these ranges. The method to design a practical chamber from this model is also described.

Polymers--Transport properties

Polymers--Permeability

Polymers--Thermal properties

Gas separation membranes

Crystallization

Gases

Aumento da resistencia termica da borracha SIS atraves da adição de poli (oxido fenileno) / To increase of SIS rubber thermal resistance with polioxyde phenilene addition

Ivanov Junior, Anatoli

13 August 2018

Orientador: João Sinezio de Carvalho Campos / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-13T12:36:21Z (GMT). No. of bitstreams: 1 IvanovJunior_Anatoli_M.pdf: 1192015 bytes, checksum: f5927a9e17a52427545658820eae73f8 (MD5) Previous issue date: 2009 / Resumo: A utilização de borracha SIS (copolímero em bloco estireno/isopreno/estireno) em diversas aplicações tais como solados de sapatos, artefatos de vedação, adesivos com baixa resistência térmica (até 40º C). No entanto, neste trabalho apresentam -se os resultados obtidos com a incorporação de PPO (polioxidofenileno) a borracha SIS, o que resulta o aumento de resistência térmica da borracha, ampliando assim suas aplicações. Neste trabalho estudou-se a melhor condição em massa dos materiais SIS e PPO. De acordo com análises físico-químicas encontrou-se a composição de 50% de cada material uma condição onde se tem um incremento na resistência térmica da borracha de até 70° C, o que então era de -51º C. No sentido de apresentar uma aplicação, realizou-se a confecção de um laminado auto-adesivo com resistência térmica até 70º C. / Abstract: The rubber use SIS (block copolymer) in several such applications as shoes, technical engines, stickers with low thermal resistance (up to 40º C). However, in this work they come the results obtained with the incorporation of PPO (polioxide phenilene) on rubber SIS, with results the increase of thermal resistance of the rubber, increase the applications. In this work it was studied the best condition in mass of material SIS and PPO. In agreement with analyses it met the composition of 50% of each material a condition where an increment is had in the thermal resistance of the rubber of up to 70° C, what then was of -50º C. In the sense of presenting an application, it took place the adhesive laminated with thermal resistance up to 70º C. / Mestrado / Ciencia e Tecnologia de Materiais / Mestre em Engenharia Química

Polímeros - Propriedades térmicas

Compósitos poliméricos

Poliésteres

Plastico reforçado

Polymers - Thermal Properties

Polymeric composites

Polyesters

Reinforced plastics

Monomer synthesis and polymer pyrolysis

Grubbs, Harvey J.

22 May 2007

Methods for the large scale preparation and purification of bis( 4-aminopheny 1)-1- phenyl-2,2,2-trifluoroethane (3F-diamine) and bis( 4-hydroxyphenyl)-1-phenyl-2,2,2- trifluoroethane (3F bis-phenol) have been developed. Spectroscopic characterization of by-products was used to develop a mechanistic understanding for synthetic design and to formulate purification techniques needed to produce monomer grade products. Utilizing the preparative methods represented in the present work, it was possible to obtain sufficiently pure 3F-diamine to allow the synthesis of soluble, end-capped, fully cyclized polyimides with glass transition temperatures greater than 430°C. The direct preparation of 3F bis-phenol from phenol and trifluoroacetophenone by trifluoromethanesulfonic acid catalyzed hydroxy alkylation was optimized to produce monomer grade 3F bisphenol. Previously reported methods were less direct and produced lower purity product. Current research efforts are exploring the utility of this monomer system for the preparation of novel poly(arylene ethers), polycarbonates, and polyesters. Bis(4-hydroxy-3- aminophenyI)-1-phenyl-2,2,2-trifluoroethane [3F-bis(aminophenol)] has recently been successfully prepared from 3F-phenol. Soluble, high glass transition temperature, fully-cyclized polybenzoxazoles have been obtained from 3F-bis(aminophenol). The synthesis and characterization of polymer systems containing the phosphine oxide unit as an integral part of the backbone continue to be areas of active research. To date the majority of research activity has centered on the synthesis and features of poly(arylene ether phosphine oxide) (PEPO). All PEPOs gave significant amounts of phosphorus-containing char at temperatures where other engineering polymers are completely volatilized. This behavior was related to the superior self-extinguishing behavior of all the phosphorus containing systems. A detailed pyrolytic degradation study of the phosphorus containing PEPO system was carried out. The study utilized analytical techniques such as pyrolysis-gas chromatography-mass spectroscopy and neutron activation analysis. To continue the exploration of the phosphine oxide systems, the synthesis and characterization of a novel phosphorus containing diamine, bis( 4-amino-phenyl) phenylphosphine oxide, has been completed. Further research is in progress preparing phosphine oxide based polyimides from this diamine. Synthesis of bis(4-hydroxyphenyl)phenylphosphine oxide and additional phosphine oxide intermediates are also reported. / Ph. D.

LD5655.V856 1993.G783

Heat resistant plastics -- Synthesis

Monomers -- Synthesis

Polymers -- Thermal properties

Thermal field-flow fractionation (Thermal FFF) and asymmetrical flow field-flow fractionation (AF4) as new tools for the analysis of block copolymers and their respective homopolymers

Ngaza, Nyashadzashe

12 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Polystyrene-block-poly(ethylene oxide) (PS-b-PEO) copolymers contain a hydrophilic PEO block and a hydrophobic PS block. PS and PEO have different affinities for most organic solvents and as a result, the PS-b-PEO copolymers are difficult to characterize in solution. In order to achieve a complete characterization of their molecular heterogeneity different techniques have been used. Recently FFF has become a cutting edge technology for polymer analysis because it possesses a number of advantages over conventional SEC and other liquid chromatographic techniques. The mild operating conditions allow the analysis of delicate and sensitive complex analytes such as complex polymer assemblies. The ability to analyze polymers with ultrahigh molar masses has also contributed to its significance in the characterization of polymers. In this study, the FFF behaviour of PS-b-PEO copolymers as well as PS and PEO homopolymers was investigated using Thermal FFF in different organic solvents and AF4. The aim of the study was the correlation of the thermodynamic quality of the solvents and the elution behaviour of the polymers. Unfortunately, PEO homopolymers have been found to interact with the membrane in AF4. Therefore, they were best characterized in organic solvents using Thermal FFF. In contrast to AF4 no specific interactions occurred due to the absence of a membrane. Results for Thermal FFF showed that in all utilized solvents, PS and PEO homopolymers were separated in the direction of increasing molar mass. For PS-b-PEO copolymers the retention in selective (good) solvents for PS was dependent on the molar mass of the PS block in the block copolymer. This was explained by the fact that in poor solvents PEO adopts a collapsed coil conformation while PS is present in extended random coil conformation. Results also showed that polymer retention was dependent on the temperature programme utilized. The fractionations by Thermal FFF indicated that some of the PS-b-PEO copolymer samples contained PS and PEO homopolymers as by-products. After semi-preparative fractionation these homopolymers were qualitatively identified using FTIR spectroscopy. / AFRIKAANSE OPSOMMING: Polistireen-blok-poli(etileenoksied) (PS-b-PEO) ko-polimere bevat 'n hidrofiliese politetileen oksied (PEO) blok en 'n hidrofobiese polistireen (PS) blok. PS en PEO het verskillende affiniteite vir die meeste organiese oplosmiddels, dit bemoeilik die karakterisering van PS-b-PEO ko-polimere in oplossing. Ten einde 'n volledige karakterisering van hul molekulêre heterogeniteit te bepaal moet ‘n verskeidenheid van tegnieke gebruik word. Onlangs het veldvloeifraksionering (FFF) baie grond gewen tov polimeer analise, aangesien dit verskeie voordele het bo tradisionele chromatografiese tegnieke soos grootte-uitsluitingschromatografie (SEC). Die ligte operasionele omstandighede laat die ontleding van ‘n verskeidenheid van polimere toe, enige iets van delikate polimeer komplekse tot ultra hoë molekulêre massa. In hierdie studie is die FFF gedrag van PS-b-PEO ko-polimere asook PS en PEO homopolimere ondersoek met behulp van Termiese FFF(ThFFF) in verskillende organiese oplosmiddels en onsimmetriese vloei-veldvloeifraksionering(AF4). Die doel van die studie was om die verband tussen die termodinamiese gehalte van die oplosmiddels en die eluering gedrag van die polimere te bepaal. Analise van PEO homopolimere was onsuksesvol aangesien daar interaksie was met die membraan. PEO is dus net geanaliseer in organise oplosmiddels met behulp van ThFFF, aangesien daar geen membraan is nie. Analise met ThFFF het gewys dat skeiding plaasvind volgens ‘n toename in molekulêre massa in organise oplosmiddels. Vir PS-b-PEO ko-polimere die retensie in selektiewe (goeie) oplosmiddels vir PS was afhanklik van die molekulêre massa van die PS blok in die ko-polimeer. ‘n Moontlike teorie is dat die PEO blok ‘n ineengestorte spoel struktuur vorm terwyl die PS blok ‘n uitgestrekte lukraake vorm aan neem. Resultate het ook getoon dat die polimeer retensie afhanklik was van die temperatuur program wat gebruik is. Die fraksionering deur ThFFF het aangedui dat sommige van die PS-b-PEO kopolimeer monsters bestaan het uit PS en PEO homopolimere as by-produkte. Hierdie is kwalitatief bewys deur analise van die fraksies na fraksionering van die ko-polimere met behulp van FTIR spektroskopie.

Field-flow fractionation

Thermal diffusion

Polymers -- Thermal properties

Block copolymers -- Analysis

Dissertations -- Polymer science

Theses -- Polymer science

UCTD

Design, Synthesis and Characterization of Multiresponsive Microgels

Nayak, Satish Prakash

26 January 2005

This thesis is geared towards using hydrogel nanoparticles in various biotechnological applications. The polymer that was used in making these nanoparticles was poly(N-isopropylacrylamide), which is a thermoresponsive polymer. These particles were used in making fast responsive polymer films, which can be used in optics. It was observed that the rate of deswelling increased as the concentration of the nanoparticles in the film was increased. These particles were also used in making photoresponsive materials. In this case a photoresponsive dye (malachite green) was conjugated to these nanoparticles and in presence of light of appropriate wavelength the particles undergo a phase transition. A core/shell construct was synthesized where the core was composed of degradable cross-links and the shell of composed of non-degradable cross-links. The degradable cross-linker had vicinal diols, which can be cleaved by sodium periodate. Hence after degrading the core, hollow particles were obtained. Zwitterionic particles were made by incorporating a cationic and anionic comonomer. These microgels go from a positively charged state to zwitterionic to negatively charged state on increasing the pH. One of the important potential applications for these microgels is drug delivery. Microgels were used for targeting cancer cells. Folic acid was used as the targeting ligand. The microgels were conjugated with folic acid and were able to target cells that overexpress folate receptors. In one other application core/shell microgels were made which exhibit pore-size dependent permeation of proteins.

pNIPAm

Core/Shell

Nanoparticles

Hydrogels

Polymers

Thin films

Colloids

Nanoparticles Synthesis

Polymers Optical properties

Polymers Thermal properties

Efeito da presença de aditivo nucleante e modificador de impacto nas propriedades térmicas e mecânicas do poli(ácido lático) / Effect of nucleating additive and impact modifier additive on thermal and mechanical properties of poly(lactic acid)

Pereira, Renato Brisigueli, 1973-

24 August 2018

Orientador: Ana Rita Morales / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-24T18:19:30Z (GMT). No. of bitstreams: 1 Pereira_RenatoBrisigueli_M.pdf: 31889860 bytes, checksum: dc126cb07343f751172187cc992844e7 (MD5) Previous issue date: 2014 / Resumo: Neste trabalho foram avaliados os efeitos de aditivo modificador térmico (MT), aditivo modificador de impacto (MI) e tratamento de recozimento nas propriedades térmicas e mecânicas do poli(ácido lático), PLA. As propriedades térmicas foram avaliadas por meio de ensaios de temperatura de deflexão térmica (HDT) e ponto de amolecimento Vicat e a partir de curvas de calorimetria diferencial de varredura (DSC) de cada composição testada. As propriedades mecânicas foram avaliadas a partir de ensaios de resistência à tração. As alterações morfológicas na estrutura cristalina das amostras também foram analisadas por análise de difração de raios¿X. O uso dos aditivos propostos não se mostrou viável para o aumento da temperatura de deflexão térmica (HDT) e do ponto de amolecimento Vicat do PLA estudado. Estas propriedades mostraram-se sensíveis ao aumento do grau de cristalinidade que aumentou de 3% do PLA puro para aproximadamente 12% do PLA modificado, porém não foi suficiente para promover as melhorias esperadas. O tratamento de recozimento foi mais efetivo que os aditivos promovendo aumento no grau de cristalinidade para valores de até 44% e elevou os valores de HDT em torno de 10ºC e de Vicat em mais de 70ºC. A temperatura de transição vítrea, Tg, foi pouco alterada, sendo observados uma tendência de redução pela presença dos aditivos e um discreto aumento pelo recozimento. A cristalização a frio do PLA foi acelerada pelo aditivo nucleante e totalmente eliminada pelo tratamento de recozimento. O módulo de elasticidade apresentou aumento significativo pela adição dos aditivos testados, o que não foi observado para a resistência à tração e para o alongamento. O recozimento também foi significativo, porém, diferentemente do esperado, causou redução em todas as propriedades mecânicas. A maior cristalinidade observada deveria ter aumentado o módulo elástico, bem como a resistência à tração, o que não ocorreu por uma possível degradação causada pelas condições empregadas no tratamento térmico. As modificações no estado cristalino também foram acompanhadas pela alteração na transparência das amostras e por difração de raios-X que identificou a predominância da fase ?, caracterizada por uma célula unitária ortorrômbica. Para potenciais aplicações industriais os teores adequados de aditivos e uma análise detalhada do processo são necessários, incluindo-se o tempo e temperatura de resfriamento durante o processo de moldagem, para que o material final possa apresentar as propriedades desejadas / Abstract: This work evaluated the effects of a thermal modifier additive, an impact modifier additive, and an annealing treatment over the thermal and mechanical properties of the poli(lactic acid) (PLA). The thermal properties were evaluated through heat deflection temperature (HDT) and Vicat softening point measurements and through differential scanning calorimetric (DSC) curves of each tested composition. The mechanical properties were evaluated through tensile strength measurements. Morphological changes in the crystalline structure of the samples were also analyzed through X-ray diffraction. The use of the proposed additives was not feasible to increase the heat deflection temperature (HDT), and the Vicat softening point of the studied PLA. These properties were sensitive to the degree of crystallinity that was increased from 3% of the pure to around 12% of the modified PLA, but was not sufficient to promote the expected improvements. The annealing treatment was more effective than the additives and promoted an increasing of the degree of crystallinity to values up to 44%, it also increased the HDT values in approximately 10°C and the Vicat in more than 70°C. The glass transition temperature, Tg, was slightly altered, being observed a tendency of reduction by the presence of additives and a minor increase by the annealing treatment. The cold crystallization of the PLA was accelerated by the nucleating additive and completely eliminated by annealing treatment. The modulus of elasticity was significantly increased by the addition of the tested additives, but not for the tensile strength and the elongation. Annealing was also significant, however, unlike the expected, caused a reduction in all the mechanical properties. The higher crystallinity observed should have increased the elastic modulus and the tensile strength, which did not occur because of a possible sample degradation caused by annealing treatment conditions employed. Changes in the crystalline state were also accompanied by changes in the transparency of the samples and through X-ray diffraction where it was identified the prevalence of the ? phase, characterized by an orthorhombic unit cell. For potential industrial applications the appropriate levels of the additives and a detailed analysis of the process is required, including time and temperature of cooling during the molding process, so that the final material can offer the desired properties / Mestrado / Engenharia Química / Mestre em Engenharia Química

Polímeros

Polímeros - Aditivos

Poli (ácido lático)

Polímeros - Propriedades mecânicas

Polímeros - Propriedades térmicas

Polymers

Polymers - Additives

Poly (lactic acid)

Polymers - Mechanical properties

Polymers - Thermal properties

Fire Retardant Polymer Nanocomposites: Materials Design And Thermal Degradation Modeling

Zhuge, Jinfeng

01 January 2012

Compared to conventional materials, polymer matrix composites (PMCs) have a number of attractive properties, including light weight, easiness of installation, potential to lower system-level cost, high overall durability, and less susceptibility to environmental deterioration. However, PMCs are vulnerable to fire such that they degrade, decompose, and sometimes yield toxic gases at high temperature. The degradation and decomposition of composites lead to loss in mass, resulting in loss in mechanical strength. This research aims to improve the structural integrity of the PMCs under fire conditions by designing and optimizing a fire retardant nanopaper coating, and to fundamentally understand the thermal response and post-fire mechanical behavior the PMCs through numerical modeling. Specifically, a novel paper-making process that combined carbon nanofiber, nanoclay, exfoliated graphite nanoplatelet, and ammonium polyphosphate into a self-standing nanopaper was developed. The nanopaper was then coated onto the surface of the PMCs to improve the fire retardant performance of the material. The morphology, thermal stability, flammability, and post-fire flexural modulus of the nanopaper coated-PMCs were characterized. The fire retardant mechanism of the nanopaper coating was studied. Upon successfully improving the structure integrity of the PMCs by the nanopaper coatings, a thermal degradation model that captured the decomposition reaction of the iv polymer matrix with a second kind boundary condition (constant heat flux) was solved using Finite Element (FE) method. The weak form of the model was constructed by the weighted residual method. The model quantified the thermal and post-fire flexural responses of the composites subject to continuously applied heat fluxes. A temperature dependent post-fire residual modulus was assigned to each element in the FE domain. The bulk residual modulus was computed by assembling the modulus of each element. Based on the FE model, a refined Finite Difference (FD) model was developed to predict the fire response of the PMCs coated with the nanopapers. The FD model adopted the same post-fire mechanical evaluation method. However, unlike the FE model, the flow of the decomposed gas, and permeability and porosity of the composites were taken into account in the refined FD model. The numerical analysis indicated that the thickness and porosity of the composites had a profound impact on the thermal response of the composites. The research funding from the Office of Naval Research (ONR) and Federal Aviation Administration Center of Excellence for Commercial Space Transportation (FAA COE AST) is acknowledged.

Nanocomposites (Materials)

Polymeric composites

Engineering

Mechanical Engineering