Showing total 108 results

1. Correlation between stabilizer consumption and degree of polymerization of thermally upgraded paper aged in insulating natural ester and insulating mineral oil

Author

Larissa Mildemberger, Mario Carlos Andreoli, Guilherme Cunha da Silva, Heloisa Nunes da Motta, Joseane Valente Gulmine, and Marilda Munaro

Subjects

thermally upgraded paper, thermal degradation, insulating natural ester, insulating mineral oil, Chemical technology, TP1-1185

Abstract

Abstract Insulating paper holds significant importance in the insulation system of power transformers, and thus, its degradation is the subject of many studies. A successful evaluation of the degradation rate of such paper contributes to reducing downtime and avoiding equipment failure. In this work, samples of thermally upgraded paper were thermally aged in insulating natural ester (INE) and insulating mineral oil (IMO) and were evaluated by degree of polymerization (DP) and FTIR-ATR. It was possible to identify characteristic bands of dicyandiamide, an inhibitory compound of the thermal degradation of the paper, and to establish a correlation between the decrease in DP and the consumption of dicyandiamide during aging, which was observed to develop in three distinct steps for both IMO and INE.

Published

2016

2. Films of post-consumer polypropylene composites for the support layer in synthetic paper

Author

Cristiano R. de Santi, Ana Carolina Correa, and Sati Manrich

Subjects

Polypropylene, synthetic paper, post-consumer waste, composite, oriented film, Chemical technology, TP1-1185

Abstract

Composite films were studied as possible candidates for the central or support layer of synthetic paper in a multilayer structure. Recycled post-consumer polypropylene films were reinforced with inorganic fillers at various compositions and under several processing conditions, with the aim of optimizing the physical and mechanical properties of rigidity and low density. Three types of CaCO3, with and without surface treatment of the particles, were used, but only the treated ones were suitable for use in paper films. These samples were then used to analyze possible correlations of properties with composition and processing conditions, varying the CaCO3 particle size distribution and the film processing method, from casting extrusion (flat die) to blown-film extrusion (tubular die). An increase in film stiffness was observed as a function of CaCO3 content and a concentration of 30% CaCO3 was found to be best for the specific application. The flat films were stiffer than the tubular ones. The densities of all the composite films were considered high, compared to a pulp-based paper and a commercial synthetic paper. No significant effect on the physical-mechanical properties analyzed was observed when the CaCO3 particle size distribution was varied. Microcavities were found to form at the surface of flat films submitted to a bi-orientation process performed at laboratory scale; no other sample showed this surface morphology.

Published

2006

3. Cellulose fiber network as reinforcement of thermoplastic paraffin films

Author

Matheus Fernandes Flores, Luciano Cordeiro, and Antonio Aprigio da Silva Curvelo

Subjects

natural fibers, composites, network reinforcement, paper, polymer matrices, Chemical technology, TP1-1185

Abstract

Abstract The incorporation of natural fibers into polymer matrices poses challenges due to physicochemical incompatibility, which is typically addressed through precursor modification or the use of compatibilizers. Here, we introduce a novel type of composite that overcomes this challenge by utilizing a network of fine, porous cellulosic sheets inter-diffused with a commercial paraffin films. This approach physically adheres the fiber network to the matrix, preserving its structure. Microscopy images confirm the formation of the proposed microstructure, and mechanical testing reveals a gradual increase in modulus and strength with the incorporation of cellulose. The maximum incorporation achieved was 7.6% (w/w) of cellulosic fibers, resulting in a 167% increase (1.67 times improved) in composite stiffness. Moreover, these composites exhibit ductility, with an average deformation of 410 ± 38%, corresponding to 20% reduction in relation to pure matrix. Our findings demonstrate the potential of this approach for developing sustainable materials with improved mechanical properties.

Published

2023

4. Sacolas plásticas: destinações sustentáveis e alternativas de substituição Plastic bags: sustainable disposal and alternative routes to their substitution

Author

Amélia S. F. e Santos, Fernando H. de O. Freire, Brenno L. N. da Costa, and Sati Manrich

Subjects

Plástico, biopolímero, oxibiodegradável, papel, papel sintético, reciclagem, Plastic, biopolymer, oxibiodegradable, paper, composting, recycling, Chemical technology, TP1-1185

Abstract

Independentemente do material adotado como melhor estratégia para uso em sacolas, cada um tem um destino final ideal que pode ser: compostagem, reciclagem mecânica, reciclagem energética, aterros sanitários, entre outros. Assim, a infra-estrutura de coleta, identificação e disposição do resíduo pós-consumo desse material deve estar associada à escolha feita para garantir sua sustentabilidade sócio-econômica. Além disso, soluções ainda controversas com relação ao real impacto no meio ambiente, não podem ser condenadas, nem incentivadas, mas devem sim ser avaliadas. Nesse sentido, cabe à comunidade científica fornecer bases sólidas e confiáveis, para que as avaliações sejam baseadas em uma visão global do problema. Foi com esse objetivo que elaboramos o presente trabalho, expondo questões críticas e relatando as diferentes soluções adotadas no mundo, inclusive sobre avaliações de impactos ambientais das diferentes alternativas para minimizar e/ou solucionar os problemas relacionados ao uso de sacolas plásticas.Regardless of the material adopted as the best strategy for use in plastic bags, each material has an ideal final disposal, which may be composting, mechanical recycling, energy recycling, sanitary landfills, and others. Therefore, the infrastructure of collection, identification and disposal of post-consumer waste of this material should be tied to the choice made to ensure its socio-economic sustainability. Moreover, solutions that are still controversial in terms of their real environmental impact should be neither condemned nor encouraged - rather, they should be evaluated. In this context, it is up to the scientific community to provide solid and reliable foundations to ensure that such evaluations are based on a global vision of the problem. This was the objective that guided the present work, with an analysis of critical issues and description of the diverse solutions adopted around the world, including environmental impact assessments of the different alternatives to minimize and/or solve the problems pertaining to the use of plastic bags.

Published

2012

5. Alternative materials to shorten injection mold manufacturing and molding cycles

Author

Adriano Fagali de Souza, Janaina Lisi Leite Howarth, Bruno Edu Arendarchuck, Alexandre Mateus Popiolek, Claudio Antonio Treml Junior, and Crislaine Kavilha

Subjects

CuBe alloys, injection molding, mold materials, processing cycle time, Chemical technology, TP1-1185

Abstract

Abstract This paper investigates mold materials for polypropylene (PP) injection molding, including CuBe alloy (high thermal conductivity), AISI P20 mold steel (the conventional material for injection molds), and polyurethane resin (rapid tooling). Characterization of molded parts involved microstructural analysis, tensile tests, warping, and degree of crystallinity assessments. The results show that the higher thermal conductivity of the mold’s inserts reduced the injection molding cycle time and produced thicker skins, which resulted in smaller spherulite sizes in the core of the samples, reduced the crystallinity degree, and consequently reduced the maximum strain property. The thermal conductivity of the molds’ inserts was shown to be more significative than the skin thickness and mold temperature for the size of the spherulites when they are formed. In addition, CuBe alloys showed to be a strong competitor with additive manufacturing-produced molds with conformal cooling channels to reduce injection molding cycle time.

Published

2024

6. Thermal evaluation of the calcium stearate influence on polystyrene by in-line colorimetry

Author

Felipe Bernardo and Sebastião Vicente Canevarolo Junior

Subjects

absorbance, calcium stearate, heat cycling, in-line optical detector, thermal characterization, Chemical technology, TP1-1185

Abstract

Abstract This paper investigates evidence regarding the influence of a CaSt2 residual additive in the optical properties of a commercial polystyrene. This work proposes an in-line optical detector operating by illuminating the polymer with a red monochromatic light in order to evaluate its thermal behavior during a heat cycling. The detection system was bench validated by measuring the light absorption of aqueous solutions of organic acid dyes. The system showed great sensitivity in detecting the contamination’s effect on the polymer, as a great impact on the polymer’s behavior was observed due to the presence of the additive during different thermal cycles. The detector system showed that the salt’s presence elevates absorbance by five times when the temperature is higher than its fusion temperature. The in-line optical detector has proved to be suitable to quantify the presence of additives that affects the polymer’s optical properties.

Published

2024

7. All-polymer-based ammonia gas sensor: applying insights from the morphology-driven ac electrical performance

Author

Ana Carolina Kelmer, Cleidinéia Cavalcante da Costa, and Rodrigo Fernando Bianchi

Subjects

conductivity, printed devices, sensing devices, strain gauges, topology, Chemical technology, TP1-1185

Abstract

Abstract This paper investigates the electrical, morphological, and mechanical behavior of ultrathin layer-by-layer polyaniline/poly(vinyl sulfonic acid) (PANI/PVS) ultrathin films for ammonia gas sensing. Atomic force microscopy shows that the PANI/PVS surface's roughness increases almost linearly with the number of PANI/PVS bilayers, while the surface morphology varies from a rod-like structure to a film-like architecture. Impedance measurements and their representation by a Cole-Cole model confirm this transition at ~15 bilayers. The designed sensor shows low response time (< 1 min), an optimal operating frequency range (1–100 Hz), high stability and sensibility to ammonia (~ 98 kΩ/ppm), and low sensibility to strain (~ 3.6 kΩ/%). This study suggests that hopping carriers' concentration remains constant, and hopping carriers' mobility changes with the number of bilayers. The simultaneous analysis of morphology with complex impedance measurements is a strategy for enhancing the electrical performance of low-cost and flexible organic sensing devices.

Published

2024

8. Conductive Amazon açaí/polyaniline composite fiber: fabrication and properties

Author

Jefter Victor Gonçalves, Jefferson Suela, Marcus Vinícius Duarte Silva, Rodrigo Fernando Bianchi, and Cleidinéia Cavalcante da Costa

Subjects

natural polymer, semiconducting polymer, environmental conservation, Chemical technology, TP1-1185

Abstract

Abstract This paper investigates the properties of the polyaniline (PANI) on açaí vegetable fiber (AVF), hereafter referred to as PANI-COATED:AVF. Scanning electron and atomic force microscopy showed that the incorporation of PANI produced a linear surface, while optical microscopy images showed that the semiconductor layer was flawed. The complex impedance measurements performed at room temperature indicated that the electrical properties of PANI were fully transferred to the PANI-COATED:AVF and that the Cole-Cole approach dominated over a frequency range from 1 Hz to 100 kHz. Thermogravimetric analysis revealed a thermal stability range of 0° to 300°C. Finally, the combination of PANI with AVF was a successful due to the ease of processing and obtaining semiconductor filaments with wide ranges of thermal and electrical stability. This article is a complement to another recently published [doi.org/10.1002/pc.27068].

Published

2023

9. Bibliometric survey of the PVC production - Part I: the continuous polymerization challenge

Author

Rafael Lima, Jonildo Silva, Mateus Vasconcelos, Carlos Alberto Castor Junior, and José Carlos Pinto

Subjects

PVC, continuous polymerization, suspension polymerization, bibliometry, Chemical technology, TP1-1185

Abstract

Abstract Poly(vinyl chloride) (PVC) resins constitute the third most important plastic materials available commercially, in terms of worldwide volume production, and can be manufactured through several polymerization mechanisms, including free radical, ionic and redox polymerization processes. Approximately 80% of the worldwide commercial PVC production is performed through suspension polymerization processes in batch mode, due to intrinsic problems of continuous suspension polymerization processes, such as polymer incrustation in reaction vessels, transport equipment and pipes. For this reason, the present review provides an extensive bibliometric survey, including papers and patents, on attempts to develop continuous polymerization process technologies for PVC manufacture. Particularly, the present survey characterizes the degree of maturity and the main bottlenecks of continuous PVC processes that have been frequently overlooked in the technical literature.

Published

2023

10. Development and characterization of sodium polyacrylate/bentonite hydrogel with epoxy resin coating

Author

Marcia Murakoshi Takematsu, Amanda Faria Baruel, Silvana Navarro Cassu, Milton Faria Diniz, David Alexandro Graves, and Rita de Cássia Lazzarini Dutra

Subjects

bentonite, near-infrared spectroscopy, sodium polyacrylate, Chemical technology, TP1-1185

Abstract

Abstract Composites are relevant to high-performance materials in the aerospace sector and have attracted the attention of the scientific and technological communities. Bentonites present very fine granulometry which enables their use in composites. This study showed the development of water absorbent composite based on sodium polyacrylate, bentonite coated by epoxy resin. Since there are gaps in the quantification of composite materials by near-infrared spectroscopy, especially by reflectance analysis (NIRA), this paper shows a quantification methodology (A7200/A5202) of sodium polyacrylate and bentonite. The methodology error found was 1.45% (95% of coefficient of determination). The effectiveness of the developed infrared methodology was verified showing that values are close to the nominal, especially for lower bentonite content. Besides, scanning electron microscopy (SEM) and universal attenuated total reflection (UATR) analysis evidenced the coating with the epoxy resin. Such development ensures rapid and precise methodologies that can be applied to the quality control of composite materials.

Published

2023

11. Poly(vinyl alcohol)/poly(glycerol) dendrimer hydrogel mediated green synthesis of silver nanoparticles

Author

Pollyana Marcondes, Gisela Helou Rosas, Maria Elena Leyva González, Alvaro Antonio Alencar de Queiroz, and Paulo Sergio Marques

Subjects

Cinnamomum verum bark, green synthesis, poly(glycerol) dendrimer, poly(vinyl alcohol), silver nanoparticles, Chemical technology, TP1-1185

Abstract

Abstract In this paper, we report the synthesis and evaluation of a poly(vinyl alcohol)/poly(glycerol) dendrimer hydrogel incorporated with green synthesized silver nanoparticles (PVA/PGLD-AgNPs) using Cinnamomum verum extract as the reducting agent (Cz-extract). The Cz-extract was prepared using ultrasonic technique. UV-visible (UV-vis) spectra of Cz-extract confirmed the presence of cinnamaldehyde. PVA/PGLD-AgNPs films were prepared using 5, 10 and 20 mL of Cz-extract and characterized by UV-vis, Fourier transform infrared spectroscopy, Thermogravimetric analysis and X-ray diffraction (XRD). The surface plasmon resonance band in the UV-vis spectra confirmed the formation of AgNPs. XRD pattern confirmed the presence of silver, with average crystallite sizes calculated by Scherrer equal to 13.64 nm, 16.63nm and 20.27 nm for AgNPs prepared with 5 mL, 10 mL and 20 mL of Cz-extract, respectively. AgNPs release kinetic was studied by Korsmeyer- Peppas model. The antimicrobial results revealed that the PVA/PGLD-AgNPs hydrogels showed good antibacterial activity behavior against Escherichia coli.

Published

2022

12. Interactions of PP-PET blends modified by montmorillonite with different polarities

Author

Ariane Sarzi Porto, Jefferson Lopes Alves, and Ana Rita Morales

Subjects

nanocomposites, blends, montmorillonite, compatibility, Chemical technology, TP1-1185

Abstract

Abstract This paper describes the effects of adding organic montmorillonite clays (MMT) with different polarities (one polar and one non-polar) in recycled poly (ethylene terephthalate) (PET) and polypropylene (PP) blends. Styrene-Ethylene/Butylene-Styrene-maleic anhydride-graft (SEBS-g-MA) was used as a compatibilizer. MMT polarity was chosen based on the expected specific interaction of each clay with PET and PP. Samples were evaluated by wide angle X-ray diffraction, scanning electronic microscopy, differential scanning calorimetry, Fourier transform infrared spectroscopy, dynamic mechanical analysis and mechanical tests. The clays caused no statistical change in the mechanical properties high-concentration PET blends, but increased Young’s modulus and decreased the elongation at break, tensile strength and impact strength of high-concentration PP blends. The different interactions between PET and SEBS-g-MA and the level of MMT exfoliation in each polymer-rich phase explained the results.

Published

2022

13. Preparation and characterization of composites from plastic waste and sugar cane fiber

Author

Ricardo Yoshimitsu Miyahara, Fábio Luiz Melquiades, Ezequiel Ligowski, Andressa do Santos, Silvia Luciana Fávaro, and Osmar dos Reis Antunes Junior

Subjects

cane bagasse fiber, composite material, hidrapulper equipment, plastic waste, alternative material for wood, Chemical technology, TP1-1185

Abstract

Abstract This study presents the preparation and characterization of composite materials using Plastic Waste from Hydrapulper (PWH) from paper industries extruded with sugar cane fiber residues from ethanol industries. The factorial design showed that composite material with 40% of sugar cane fiber, pressed with 5 ton was the optimized condition. The main findings attested that the composite is resistant up to 250 °C and its hardness is increased compared to the raw PWH. The material presented woodsy aspect although water absorption has increased. So, this study offers a good alternative for the use of plastic waste generated as a by-product of recycled paper industry as well as a destination to the sugar cane bagasse.

Published

2018

14. Sistemas inteligentes de embalagens utilizando filmes de quitosana como indicador colorimétrico de temperatura Alternative intelligent material for packaging using chitosan films as colorimetric temperature indicators

Author

Vinícius B. V. Maciel, Telma T. Franco, and Cristiana M. P. Yoshida

Subjects

Embalagem inteligente, quitosana, clorofila, indicadores de temperatura, Intelligent packaging, chitosan, chlorophyll, temperature indicator, Chemical technology, TP1-1185

Abstract

Clorofila, um pigmento natural termossensível, foi incorporado à matriz de filmes de quitosana visando a obter sistemas inteligentes de indicação de variação de temperatura. A quitosana é um polímero biodegradável que forma filmes flexíveis com eficiente barreira ao oxigênio, podendo ser alternativa ao uso de polímeros sintéticos. Clorofila foi adicionada (0,25 g/100 g) à suspensão de quitosana (2,00 g/100 g) formando filmes inteligentes de quitosana (FIQ). Os efeitos da temperatura (10 °C a 50 °C) e luminosidade (0 a 1000 lx) foram estudados utilizando um planejamento experimental, avaliando os parâmetros de cor (L*, a*, b*) e propriedades mecânicas. As suspensões de quitosana contendo clorofila foram aplicadas como revestimento em superfície de papel cartão formando o sistema de material flexível filme-papel cartão (S-FP), reduzindo significativamente o tempo de secagem. Os filmes caracterizaram-se pela homogeneidade, flexibilidade, coloração esverdeada e fácil manuseio. A variação de cor foi visualmente observada no sistema S-FP, alterando irreversivelmente de verde para amarelo quando submetido a temperaturas acima de 50 °C, independentemente da luminosidade. Desta forma, o sistema proposto tem potencial de aplicação como indicador colorimétrico de temperatura na faixa de 50 °C a 75 °C, com a vantagem de simples fabricação, biodegradabilidade e uso de materiais seguros para aplicação em contato direto com alimentos e fármacos, além do baixo custo.Chlorophyll was incorporated into chitosan films, forming intelligent systems able to detect variations in temperature. Chitosan is a biodegradable polymer that forms flexible, resistant films with an efficient oxygen barrier. Chlorophyll was added (0.25 g/100 g) into chitosan suspension (2.00 g/100 g) and intelligent films (FIQ) were cast. The effects of temperature (10 °C to 50 °C) and luminosity (0 to 1000 lx) on the films were studied using an experimental design with two variables, analyzing the color parameters L*, a*, b* and mechanical properties. The films were characterized according to their homogeneity, flexibility, color and handling. Chitosan suspensions containing chlorophyll were also applied as coating on the surface of pieces of card-paper, forming a card paper film system (S-FP). By visual inspection we observed the color of the S-FP changing irreversibly from green to yellow when the temperature was above 50 °C. Therefore, the S-FP system can potentially be used as a colorimetric indicator for the 50 °C to 70 °C range, being advantageous owing to the ease of fabrication, biodegradability, safe use for food and low cost.

Published

2012

15. Use of biodegradable polymer for development of environmental tracers: a bibliometric review

Author

Adriana Marques and Sandra Maria da Luz

Subjects

polyhydroxybutyrate, polymeric membranes, nanocellulose, biodegradable materials, tracers, Chemical technology, TP1-1185

Abstract

Abstract Qualitative and quantitative measuring in water bodies, nuclear medicine, agriculture, and world oil production use tracers to monitor, evaluate and continuously improve their processes. The bibliometric information about the past and the future of artificial tracers, to monitor surface and groundwater by using sustainable biodegradable materials it will be important for future generation. To fulfil this purpose, bibliometric literature analysis has been considered as a solution to identify research areas that need to be improved. The results of this paper showed that even with the increase in research in biopolymers, and the use of artificial tracers, academic development is still not significant. The United States, China, and Germany are the top publishers in this field however, there is no country that constantly develops research in these areas concomitantly using biodegradable polymers. Because of that, this field could be further explored, globally using innovative techniques and materials for new tracers.

Published

2021

16. Experimental investigation on stacking sequence of Kevlar and natural fibres/epoxy polymer composites

Author

Murali Banu, Vijaya Ramnath Bindu Madhavan, Dhanashekar Manickam, and Chandramohan Devarajan

Subjects

aloe vera fibre, bamboo fibre, epoxy resin, Kevlar fibre, palmyra palm fibre, Chemical technology, TP1-1185

Abstract

Abstract This paper investigates the stacking sequence of combined natural and synthetic fibres reinforced epoxy composites for better mechanical properties. The hybrid composites fabricated using vacuum assisted compression molding process with the natural and synthetic fibres layered in three different sequences such as type I, type II and type III where the synthetic fibers were placed alternatively. The ultimate tensile strength of composite type III was increased by 12% and 30% when compared to composite type I and type II respectively. The flexural test results showed that composite type III have better flexural strength 223 MPa which is 13% and 11% greater than composite type I and type II respectively. Overall, it can be declared that the composite type III shows better tensile, and flexural properties i.e., the composite with aloe vera and palmyra palm fibres have better wettability with the matrix when compared to bamboo fibre.

Published

2021

17. Evaluation of fracture toughness of epoxy polymer composite incorporating micro/nano silica, rubber and CNTs

Author

Ronaldo Câmara Cozza and Vikas Verma

Subjects

CNT, epoxy, rubber, silica, Chemical technology, TP1-1185

Abstract

Abstract In engineering applications, fracture toughness is an essential requirement that determines the life of a material. Epoxy polymers are widely used in fibre-reinforced composite materials. Due to their structural efficiency and durability, the use of adhesive and composite materials based on epoxy polymers is widespread in aerospace and automobile industries. In this paper fracture toughness of hybrid epoxy polymer composite with addition of nano/micro figures of silica, rubber and carbon nano tubes (CNTs) is evaluated. It is observed that silica addition promoted nano toughening effect with plastically deformation capability in epoxies. Rubber and multi walled CNTs increased the toughness with negligible reduction in stiffness in epoxies. Future research emphasis can be laid on crucial understanding of stress transfer mechanisms and interfacial bond strength between nano particles – epoxy system and on nanofillers modified epoxies as matrices or interleafs for carbon or glass fiber composites to increase the interlaminar delamination toughness.

Published

2020

18. Advances and perspectives in the use of polymers in the environmental area: a specific case of PBS in bioremediation

Author

Priscilla Braga Antunes Bedor, Rosana Maria Juazeiro Caetano, Fernando Gomes de Souza Júnior, and Selma Gomes Ferreira Leite

Subjects

biodegradable polymer, biopolymer, bioremediation, foresight methodology, poly(butylene succinate), Chemical technology, TP1-1185

Abstract

Abstract Biodegradable polymers (e.g. poly(butylene succinate) - PBS) have been used in several sectors such as the environmental area, especially in bioremediation, in biological processes for conversion of pollutants into inorganic compounds. In this study, the foresight methodology for the use of biodegradable polymers, including PBS, reveals a publication rate of approximately 8.74 articles and 30.63 patents per year, between 2005 and 2019. However, the application of PBS, specifically, is still restricted to the environmental area, with only 3.0% of the 1484 works from this period. The results showed a more significant number of papers on the PBS application for synthesis, characterization, and application in the areas of Chemistry, Physics, and Pharmacy. In the area of bioremediation, only three studies related to PBS were found, revealing the lack of research and development to increase the contribution in the area of environmental recovery.

Published

2020

19. Disposable coffee capsules as a source of recycled polypropylene

Author

Michel Lincoln Bueno Domingues, Jean Rodrigo Bocca, Silvia Luciana Fávaro, and Eduardo Radovanovic

Subjects

disposable capsules, polypropylene, recycling, mechanical properties, Chemical technology, TP1-1185

Abstract

Abstract In this paper was investigated the chemical, physical, thermal, mechanical and morphological characteristics of the recyclable materials obtained of the NESCAFÉ® DOLCE GUSTO® branded beverage capsules, characterizing different resulting compositions. The characterization was made by following techniques: Fourier-transform infrared spectroscopy (FTIR), X-ray Diffraction (XRD), Differential Scanning Calorimetry (DSC), Thermogravimetric Analysis (TGA), Scanning Electron Microscopy (SEM), Water Absorption and techniques for the analysis of mechanical properties (tensile and impact test). The results showed that the body of the capsule and the inner filter, both made of polypropylene, are the most interesting materials to be reused, having good properties, while the materials resulting from the mixtures of all the constituents in the beverage capsules presented decreased mechanical properties.

Published

2020

20. Synthesis and performance of AM/SSS/THDAB as clay hydration dispersion inhibitor

Author

Wei-Chao Du, Xiang-Yun Wang, Man Liu, Tai-Fei Bi, Shun-Xi Song, Jie Zhang, and Gang Chen

Subjects

clay hydration inhibitor, low molecular weight, shale gas, water-based drilling fluids, Chemical technology, TP1-1185

Abstract

Abstract In this paper, a novel zwitterionic copolymer AM/SSS/THDAB clay hydration dispersion inhibitor was synthesized by copolymerization of tris hydroxyethyl diallyl ammonium bromide (THDAB), sodium p-styrene sulfonate (SSS) and acrylamide (AM) initiated in an aqueous solution. The copolymer was characterized by FT-IR, GPC, TGA-DSC and SEM. Results demonstrated that molecular weight of AM/SSS/THDAB was 43674 g/mol and its temperature resistance ability was up to 225 °C. Evaluation experiments showed that AM/SSS/THDAB has an excellent clay hydration inhibitive performance. Methods including particle size analysis and SEM were utilized to study its dispersion inhibition mechanism by using sodium montmorillonite (Na-MMT). Results indicated that the micro-structure of Na-MMT has been successfully changed by AM/SSS/THDAB. In a word, the superior inhibition property makes the novel clay hydration dispersion inhibitor promised in water-based drilling fluids.

Published

2020

21. UATR and NIRA evaluation in the quantification of ATBC in NC blends

Author

Talita de Souza Dias Mello, Milton Faria Diniz, and Rita de Cássia Lazzarini Dutra

Subjects

ATBC, NC, NIRA, paints, UATR, Chemical technology, TP1-1185

Abstract

Abstract The paint industry requires rapid and accurate methodologies of raw materials qualitiy controls. For example, the evaluation of the suitable ratio of binary mixtures of polymer/plasticizer such as nitrocellulose (NC)/acetyl tributyl citrate (ATBC) must be done, since this ratio is directly related to the performance of the final product. However, there is a small number of quantitative methodologies of such control in the literature. In this context, in this paper, the applicability of Infrared Fourier Transform Spectroscopy (FT-IR) techniques by using universal total attenuated reflection (UATR), in the middle infrared (MIR), and the reflectance analysis in the near infrared region (NIRA) is evaluated for the quantification of plasticizer ATBC in mixtures with NC. MIR and NIR methodologies presented good results such as: practicality of not requiring refined sample preparation, analysis time about 30 min and good accuracy, suitable data for using in the quality control laboratories of paint industry.

Published

2018

22. Poli(Etileno Naftalato) - PEN: uma revisão do seu histórico e as principais tendências de sua aplicação mundial Poly(ethylene naphtalate) - PEN: historical review and main trends in world application

Author

Edilene de Cássia D. Nunes, José Augusto M. Agnelli, and Roberto A. Rossi

Subjects

Poli(etileno naftalato) - PEN, Poli(etileno tereftalato) - PET, blendas poliméricas, embalagens, Poly(ethylene naphtalate) - PEN, Poly(ethylene terephtalate) - PET, polymer blends, packaging, Chemical technology, TP1-1185

Abstract

Este artigo contém uma revisão sobre o Poli(etileno naftalato) - PEN e também inclui vários aspectos relacionados com as blendas poliméricas Poli(etileno tereftalato) - PET / Poli(etileno naftalato) - PEN. O artigo é resultado de um desenvolvimento conjunto da Alcoa Alumínio S.A.- Divisão de Embalagens e do Departamento de Engenharia de Materiais - Universidade Federal de São Carlos (UFSCar), que tem como objetivo pesquisar o tema aqui abordado.This paper presents a review on poly(ethylene naphtalate) - PEN including several features related to poly(ethylene terephtalate) - PET / poly(ethylene naphtalate) - PEN blends.The paper is a result of a conjoint development of Alcoa S.A. - Packaging Divisions and of the Department of Materials Engineering - Federal University of São Carlos (UFSCar), whose scope is to investigate the subject here approached.

Published

1998

23. FSSC 22000 Packaging Implementation: a Plastics Industry Research

Author

Vanessa Cantanhede, Karen Signori Pereira, and Daniel Weingart Barreto

Subjects

food safety, FSSC 22000, packaging, plastic, Chemical technology, TP1-1185

Abstract

Abstract This paper presents the outcomes of an exploratory research carried out in companies, which are located in Brazil. They are FSSC-22000-certified food plastic packaging manufacturers. In order to identify the key aspects of the implementation process and certification, a questionnaire was developed and sent to twenty certified organizations. Out of them, eleven of which participating companies responded in a collaborative way. Based on the data obtained, improving competitiveness and customer retention were the reasons, which led the companies to seek the certification. However, the greatest difficulties were related to personnel, which presented technical and behavioral issues. In addition, it was noted that an overall satisfaction, derived from after-certification benefits, has been arisen in the companies. For instance, enhanced employee awareness, improved company's image and winning new customers, significantly contributing to their competitiveness, are some of the benefits found in this process.

Published

2018

24. Nitrile rubber and carboxylated nitrile rubber resistance to soybean biodiesel

Author

Felipe Nunes Linhares, Cléverson Fernandes Senra Gabriel, Ana Maria Furtado de Sousa, Marcia Christina Amorim Moreira Leite, and Cristina Russi Guimarães Furtado

Subjects

nitrile rubber, crosslink density, biodiesel, mechanical properties, Chemical technology, TP1-1185

Abstract

Abstract Biodiesel has been considered a suitable substitute for petroleum diesel, but their chemical composition differs greatly. For this reason, biodiesel interacts differently than petroleum diesel with various materials, including rubbers. Therefore, the resistance of some elastomers should be thoroughly evaluated, specifically those which are commonly used in automotive industry. Nitrile rubber (NBR) is widely used to produce vehicular parts that are constantly in contact with fuels. This paper aimed to assess the resistance of carboxylated nitrile rubber (XNBR) with 28% of acrylonitrile content to soybean biodiesel in comparison with non-carboxylated nitrile rubber samples, with high and medium acrylonitrile content (33 and 45%). NBR with medium acrylonitrile content showed little resistance to biodiesel. However, carboxylated nitrile rubber even with low acrylonitrile content had similar performance to NBR with high acrylonitrile content.

Published

2018

25. Extraction and analysis of the parietal polysaccharides of acorn pericarps from Quercus trees

Author

Moubarek Mébarki, Kadda Hachem, Céline Faugeron-Girard, Riad el Houari Mezemaze, and Meriem Kaid-Harche

Subjects

Quercus sp., pericarp, polysaccharides, Chemical technology, TP1-1185

Abstract

Abstract Acorns produced by Quercus trees are currently underexploited and undervalued. To evaluate the commercial and health benefits of acorns, we examined the cell wall components of acorn pericarps from Quercus suber and Quercus ilex, growing in North-Western Algeria. Acorn pericarps were sequentially extracted and the polysaccharide fractions were analyzed by gas liquid chromatography and Fourier-transform infrared spectroscopy. The lignocellulosic fraction was the major component of Q. suber and Q. ilex cell walls (37.19% and 48.95%, respectively). Lower amounts of pectins and hemicelluloses were also found in both species. Hemicellulose extracts from the two species contained xylose as the major monosaccharide (ranging from 36.7% to 49.4%). Galacturonic acid was the major component of hot water- or ammonium oxalate-extracted pectins from both species (ranging from 20.6% to 46.8%). The results reported in this paper reveal that acorn pericarp cell walls from these two oak could be potential sources of bioactive compounds.

Published

2019

26. Preliminary analysis of N-vinylpyrrolidone based polymer gel dosimeter

Author

Juliana Rosada Dias, Thyago Fressatti Mangueira, Roseany de Vasconcelos Vieira Lopes, Maria José Araújo Sales, and Artemis Marti Ceschin

Subjects

polymer gel dosimetry, optical analysis, N-vinylpyrrolidone, radiotherapy, Chemical technology, TP1-1185

Abstract

Abstract This paper aims to evaluate the dosimetric characteristics of modified VIPARnd for radiotherapy dosimetry using optical investigations. The absorbance spectrum of the irradiated gel dosimeter was evaluated optically with spectrophotometer techniques and with a CMOS imaging system. The useful dose range for the peak value and the relative area under the absorbance curve is 3-20 Gy. The dose-response curve for CMOS readout has an interval of linearity from 3-20 Gy. The modified VIPARnd developed has a good dose range and good temporal stability in the spectrophotometric analysis of the intervals studied. The CMOS readout is transportable, cheaper, easier to use and an excellent alternative for dosimetry.

Published

2018

27. Cellulose nanomaterials: size and surface influence on the thermal and rheological behavior

Author

Marcos Mariano, Nadia El Kissi, and Alain Dufresne

Subjects

cellulose nanocrystals, cellulose nanofibrils, thermal stability, rheology, Chemical technology, TP1-1185

Abstract

Abstract Cellulose nanocrystals (CNC) and nanofibrils (CNF) were obtained by acid hydrolyzis and mechanical treatment, respectively, of cellulosic fibers from paper. Additionally, surface modification was performed for CNC by neutralization (NaOH) and oxidation (TEMPO). The thermal stability, surface properties and rheological behavior of these nanomaterials were compared. A clear difference in CNC surface was found upon neutralization and oxidation treatments, leading to distinct thermal behaviors. Optical and rheological properties were found to be predominantly by the particles size, being strongly affected by inertial effects.

Published

2018

28. Curing and thermal behavior of epoxy resins of hexafluoro - bisphenol –A and bisphenol-A

Author

Vaishnav Kiran and Bharti Gaur

Subjects

aromatic diamines, curing behavior, epoxy resins, imide amine, thermal properties, Chemical technology, TP1-1185

Abstract

Abstract This paper describes the synthesis and characterization of epoxy resins based on (hexafluoroisopropylidene)diphenol (EFN) and p,p’-isopropylidenebisphenol (EBN), respectively and 4, 4’- (hexafluoroisopropylidene)dipthalic-imideamine (IMAM), a curing agent. The synthesized epoxy resins and IMAM curing agent were characterized by Fourier Transform Infrared (FTIR) and 1H Nuclear Magnetic Resonance (NMR) spectroscopy.13C NMR technique was also used to characterize IMAM. Study of curing behavior of EFN and EBN with stoichiometric amount of aromatic 4,4’-diaminodiphenylmethane (DDM), 4,4’-diaminodiphenylsulfone (DDS) and IMAM by using Differential Scanning Calorimetery (DSC) indicated that IMAM was least reactive curing agent towards both epoxy resins as compared to DDS and DDM. The investigation of thermal decomposition of the cured compounds by thermogravimetric analyzer (TGA) indicated the higher thermal stability of EFN and EBN resins initially with DDS and at elevated temperatures with IMAM. It was also observed that EFN resins were thermally more stable than EBN resins cured with corresponding curing agents.

Published

2016

29. Development of dual-sensitive smart polymers by grafting chitosan with poly (N-isopropylacrylamide): an overview

Author

Nívia do Nascimento Marques, Ana Maria da Silva Maia, and Rosangela de Carvalho Balaban

Subjects

smart polymer, thermosensitive, pH-responsive, N-isopropylacrylamide, chitosan, Chemical technology, TP1-1185

Abstract

AbstractA great deal of research on polymers over the past two decades has been focused on the development of stimuli-responsive polymers to obtain materials able to respond to specific surroundings. In this paper, an overview is presented of the concepts, behavior and applicability of these “smart polymers”. Polymers that are temperature- or pH-sensitive are discussed in detail, including the response mechanisms and types of macromolecules, because they are easy to handle and have a wide range of applications. Finally, the combination of pH and temperature responsive properties by means of graft copolymerization of chitosan with poly (N-isopropylacrylamide) (PNIPAM) was chosen to represent some synthetic routes and properties of dual-sensitive polymeric systems developed currently.

Published

2015

30. Vegetal fibers in polymeric composites: a review

Author

Paulo Henrique Fernandes Pereira, Morsyleide de Freitas Rosa, Maria Odila Hilário Cioffi, Kelly Cristina Coelho de Carvalho Benini, Andressa Cecília Milanese, Herman Jacobus Cornelis Voorwald, and Daniela Regina Mulinari

Subjects

thermoplastic composite, thermoset composite, lignocellulosic residues, Chemical technology, TP1-1185

Abstract

The need to develop and commercialize materials containing vegetal fibers has grown in order to reduce environmental impact and reach sustainability. Large amounts of lignocellulosic materials are generated around the world from several human activities. The lignocellulosic materials are composed of cellulose, hemicellulose, lignin, extractives and ashes. Recently these constituents have been used in different applications; in particular, cellulose has been the subject of numerous works on the development of composite materials reinforced with natural fibers. Many studies have led to composite materials reinforced with fibers to improve the mechanical, physical, and thermal properties. Furthermore, lignocellulosic materials have been treated to apply in innovative solutions for efficient and sustainable systems. This paper aims to review the lignocellulosic fibers characteristics, as well as to present their applications as reinforcement in composites of different polymeric matrices.

Published

2015

31. Cowper-Symonds parameters estimation for ABS material using design of experiments with finite element simulation

Author

Alexandre Luis Marangoni and Ernesto Massaroppi Junior

Subjects

cowper-symonds, finite element analysis, izod, space filling design, strain rate, Chemical technology, TP1-1185

Abstract

Abstract Polymers exhibit significant strain rate dependence in their mechanical strength. The impact simulations accuracy is associated with the use of mechanical properties obtained at high strain rates. These properties are often not available to engineers introducing a risk on the product development step. This paper presents a method for adjusting the parameters of the Cowper-Symonds, used for a constitutive material model, through computational experiments carried out considering the simulation of the Izod impact test.The proposed adjustment method allows reducing the Izod impact strength error from 44% to 2.4%.

Published

2017

32. Evaluation of the influence of the use of waste from the processing of rice in physicochemical properties and biodegradability of PHB in composites

Author

Ana Paula Wünsch Boitt, Ivonete Oliveira Barcellos, Leila Denise Alberti, and Doris Zwicker Bucci

Subjects

Rice husk ash, composites, PHB, talc, fillers, Chemical technology, TP1-1185

Abstract

The high calorific value of rice husks has elevated its reuse as an energy source; however, the burning of these shells generates a waste ash from rice husk ash (RHA), which makes its disposal a concern. Despite advances, biodegradable polymers are not yet able to compete with those of traditional thermoplastics, which have lower production cost and higher performance. Based on this background, this paper studies the feasibility of reuse of RHA as filler in polymer matrices replacing the conventional filler. This study consists of applying different percentages of RHA in the formulation of polyhydroxybutyrate composite (PHB) and the use of talc (TA) for comparison purposes as conventional filler. The composites used in this assay were obtained by twin-screw extrusion and injection molding of the polymer plus the fillers under study. Physicochemical and biodegradability properties of the composites were evaluated. The composite PHB/RHA was superior in the biodegradability tests and the properties remain practically unchanged in the presence of the filler. Thus, composites with RHA are promising because they take an abundant residue combined with degradation capacity of the polymer, therefore reducing cost and the environmental impact.

Published

2014

33. Sugarcane bagasse ash: new filler to natural rubber composite

Author

Renivaldo José dos Santos, Deuber Lincon da Silva Agostini, Flávio Camargo Cabrera, Elton Aparecido Prado dos Reis, Marcos Roberto Ruiz, Eduardo Roque Budemberg, Silvio Rainho Teixeira, and Aldo Eloizo Job

Subjects

Sugarcane bagasse ash, natural rubber, vulcanization, recycling, biomass, Chemical technology, TP1-1185

Abstract

Waste recycling has been the subject of numerous scientific researches regarding the environmental care. This paper reports the redirecting of sugarcane bagasse ash (SBA) as new filler to natural rubber (NR/SBA). The NR/SBA composites were prepared using an opened cylinder mixer to incorporate the vulcanization agents and different proportions of residue (SBA). The ash contains about 70-90% of inorganic compounds, with silica (SiO2) being the main compound. The SBA incorporation improved the mechanical properties of the vulcanized rubber. Based on these results, a new use is proposed for the agro-industry organic waste to be implemented in the rubber vulcanization process, aimed at improving the rubber physical properties as well as decreasing the prices of natural rubber composites.

Published

2014

34. Effect of the properties of natural resin binder in a high friction composite material

Author

S. Stephen Bernard and L S Jayakumari

Subjects

Cardanol, wear, friction, porosity, Chemical technology, TP1-1185

Abstract

In this paper, a high-friction composite material based on the combination of binder, friction modifiers, fibers and fillers is investigated. In the binder, up to 20% of phenol are replaced by cardanol with various weight ratios of 100/0, 95/5, 90/10, 85/15, 80/20. Cardanol may react both through the phenolic group and the double bond of the side chain yielding addition, condensation and polymerisation reactions that allow the synthesis of tailor-made products and polymers of high value. In the present work, mechanical, thermal and wear characteristics of cardanol based phenolic resin with organic ingredients were manufactured and tested. An analysis of microstructure characteristics of composites was carried out using scanning electron microscope. The effect of environment on the composite was investigated in water, salty water and oil. The results showed that the addition of cardanol reduces the wear resistance and increases the compressibility which reduces the noise propensity.

Published

2014

35. Caracterização morfológica de nanomembranas de poliamida-66 dopadas com grafeno obtidas por electrospinning Morphological characterization of polyamide-66 nanomembranes with graphene obtained by electrospinning

Author

José de Ávila Júnior, Antônio Ferreira Ávila, and Matt H. Triplett

Subjects

Electrospinning, nanofibras, nanomembranas, grafeno, compositos nano-estruturados, nanofibers, nanomembranes, graphene, nanostructured composites, Chemical technology, TP1-1185

Abstract

Neste estudo, investigou-se a síntese de nanomembranas por eletrofiação (electrospinning). A poliamida-66 (PA-66) foi usada para estudar a influência dos parâmetros operacionais (concentração do polímero, diferença de potencial elétrico aplicada, vazão da solução, distância entre ponta da agulha e o coletor) na morfologia das nanofibras. Também foi estudado o efeito da adição de nanofolhas de grafeno na morfologia das nanofibras. Os resultados demonstraram que o diâmetro médio das nanofibras é diretamente proporcional à vazão, à concentração do polímero e à diferença de potencial elétrico aplicada. A adição de nanopartículas de base carbono fez com que o diâmetro médio das nanofibras aumentasse. Os diâmetros médios para as concentrações de grafeno de 0%, 1%, e 2% variaram de 57 nm (0%) até 141 nm (2%). No entanto, é importante salientar que os diâmetros médios das nanofibras obtidas estão 37% menores que aqueles reportados na literatura.This paper reports on the synthesis of polymeric nanomembranes produced by electrospinning. Polyamide-66 (PA-66) was used for studying the influence of fabrication parameters (polymer concentration, applied tension, solution flow rate, gap between needle and target) on the morphology of the nanofibers. Also investigated was the effect from adding graphene into the nanofiber. The average diameter was directly proportional to polymeric concentration, flow rate, and applied tension. The addition of graphene led to an increase in the average diameter, which ranged from 57 nm for the fibers in absence of graphene to 141 nm for a 2 wt% of graphene added. It should be stressed, however, that the average diameters were 37% smaller than the values reported in the literature.

Published

2013

36. Cellulose-reinforced composites: from micro-to nanoscale

Author

Alain Dufresne and Mohamed N. Belgacem

Subjects

Cellulose fibres, surface modification, composite materials, nanocomposites, Chemical technology, TP1-1185

Abstract

This paper present the most relevant advances in the fields of: i) cellulose fibres surface modification; ii) cellulose fibres-based composite materials; and iii) nanocomposites based on cellulose whiskers or starch platelet-like nanoparticles. The real breakthroughs achieved in the first topic concern the use of solvent-free grafting process (plasma) and the grafting of the matrix at the surface of cellulose fibres through isocyanate-mediated grafting or thanks to "click chemistry". Concerning the second topic, it is worth to mention that for some cellulose/matrix combination and in the presence of adequate aids or specific surface treatment, high performance composite materials could be obtained. Finally, nanocomposites allow using the semi-crystalline nature and hierarchical structure of lignocellulosic fibres and starch granules to more deeply achieve this goal profitably exploited by Mother Nature

Published

2013

37. Síntesis de hidrogeles termosensibles de poli(N‑isopropilacrilamida)-co-poli(N,N,-dimetilacrilamida) Synthesis of thermosensitive hydrogels of poly(N-isopropylacrylamide)-co-poly(n,n-dimethylacrylamide)

Author

Jorge Alberto Cortés Ortega

Subjects

Diffusion coefficient, hydrogels, N-isopropylacrylamide, N,N-dimethylacrylamide, thermosensitive, Chemical technology, TP1-1185

Abstract

En este trabajo se realizo la copolimerización de la N-isopropilacrilamida (NIPA) com la N,N, dimetilacrilamida (DIMA), obteniéndo se un incremento em la temperatura de transición de las muestras, cuando se aumentaba la proporción de DIMA adicionada, se incremento la capacidad de absorber agua de las muestras y se encontró que al incrementar la concentración de DIMA disminuye tanto la fracción de agua liberada em el punto de transición, así como la velocidad de liberación de agua. Cuando las muestras se coloca a hinchar a 25 °C y alcanzan el hinchamiento de equilibrio, las muestras se colocan a 38 °C determinando se el coeficiente de difusión.In this paper we copolymerized N-isopropylacrylamide (NIPA) with N, N, dimethylacrylamide (DIMA). The increase in the proportion of DIMA added resulted in a proportional increase over the transition temperature, as well as on the ability of samples to absorb water. An increase in the DIMA concentration also reduced the volumetric fraction and the rate of water released, in the transition point. After reaching swelling equilibrium at 25 °C the samples were heated to 38 °C for determining the diffusion coefficient.

Published

2013

38. Polysaccharide-based biomaterials with antimicrobial and antioxidant properties

Author

Véronique Coma

Subjects

Polysaccharides, active biomaterials, antimicrobial and antioxidant biopackaging, Chemical technology, TP1-1185

Abstract

Active packaging is one of the responses to the recent food-borne microbial outbreaks and to the consumer’s demand for high quality food and for packaging that is more advanced and creative than what is currently offered. Moreover, with the recent increase in ecological awareness associated with the dramatic decrease in fossil resources, research has turned towards the elaboration of more natural materials. This paper provides a short review of biomaterials exhibiting antimicrobial and antioxidant properties for applications in food preservation. The two main concepts of active biopackaging materials are briefly introduced. The different polysaccharides potentially used in packaging materials are then presented associated with a brief overview of research works related to biopackaging, exhibiting notably antimicrobial or antioxidant properties. Finally, future trends such as the release-on-demand of bioactive agents are discussed.

Published

2013

39. Blendas PHB/copoliésteres biodegradáveis : biodegradação em solo Biodegradable PHB/copolyester blends : biodegradation in soil

Author

Suzan A. Casarin, José A. M. Agnelli, Sônia M. Malmonge, and Francisco Rosário

Subjects

Polímeros biodegradáveis, blendas biodegradáveis, poli(hidroxibutirato) - PHB, EastarBio®, Ecoflex®, Biodegradable polymers, Biodegradable blends, poly(hydroxybutyrate) - PHB, Eastar Bio®, Chemical technology, TP1-1185

Abstract

Este trabalho apresenta os resultados do comportamento de blendas do polímero biodegradável PHB poli(hidroxibutirato) com os copoliésteres também biodegradáveis EastarBio® e Ecoflex®, na composição de 75% de PHB e 25% dos copoliésteres, em contato com solo composto simulado. Foi também avaliada a influência da adição de pó de serra ou farinha de madeira, na proporção de 70% da blenda e 30% de pó de serra (p.d.s.). A biodegradação foi avaliada para amostras após 30, 60 e 90 dias em contato com solo, através de análises gravimétricas, morfológicas e mecânicas. A preparação inicial dos grânulos dos compostos poliméricos foi feita por extrusão, utilizando uma extrusora dupla-rosca e a moldagem dos corpos de prova foi realizada através da moldagem por injeção. Os materiais estudados biodegradam nas condições testadas. A blenda PHB/EastarBio® (75/25) + 30% p.d.s. apresentou maior redução de massa, 29% após 90 dias. Notou-se que a biodegradação se inicia pela superfície do material e que 90 dias são insuficientes para observar alterações internas.This paper reports on blends made with the biodegradable polymers poly(hydroxybutyrate) (PHB) and Eastar Bio® or Ecoflex® copolyesters, in contact with simulated compound soil. The blends had 75% of PHB and 25% of copolyesters. We also analyzed the influence from adding 30% of powder-wood or wood flour (WPC) to 70% of the blend. Biodegradation was analyzed for samples after 30, 60 and 90 days in contact with soil, through thermogravimetric, morphological and mechanical analyses. The initial preparation of the granules of polymeric compounds was made by extrusion, using a twin-screw extruder and the molding of the specimens was performed by injection molding. The analysis indicated material biodegradation under the conditions tested. The PHB/Eastar Bio® blend (75/25) + 30% WPC exhibited the highest degradation with 29% of mass loss at the end of 90 days. Biodegradation started on the material surface and 90 days were not sufficient to induce noticeable internal changes.

Published

2013

40. Determination of phthalates in polymer materials - comparison of GC/MS and GC/ECD methods

Author

Katarzyna Jaworek and Marianna Czaplicka

Subjects

Gas chromatography, mass spectrometry, electron capture detector, phthalates, polymer material, Chemical technology, TP1-1185

Abstract

The paper presents two methods for determination of phthalates in polymer materials. The methods compared were gas chromatography combined with the mass spectrometry (GC/MS) and gas chromatography with electron capture detector (GC/ECD). The GC/ECD technique was chosen for this comparison, because the ECD detector was one of few capable of detecting phthalates. In both cases the same procedure of sample preparation with ultrasonic extraction was applied. Overall recoveries were 76-100 % with relative of standard deviation (R.S.D.) values in the range 0.6-19 %. The values of limit of detection (LOD) for GC/MS method ranged from 3.46 µg mL- 1 to 10.10 µg mL- 1, depending on the determined phthalate, while in case of the GC/ECD method they were in the range from 2.97 µg mL- 1 to 4.29 µg mL- 1. The methods were applied for determination of: dimethyl phthalate, diethyl phthalate, di-n-butyl phthalate, benzyl butyl phthalate, bis(2-ethylhexyl) phthalate, diisononyl phthalate, diisoocyl phthalate in polymer material. The seventeen kinds of samples were analyzed. Most of the materials selected for the analyses were made from polyethylene (PE), polyvinyl chloride (PVC) and polystyrene (PS).

Published

2013

41. Influência do uso do poliol reciclado obtido pela glicólise na preparação da espuma rígida de poliuretano Influence of the use of recycled polyols obtained by glycolysis on the preparation of rigid polyurethane foam

Author

Elio Lopes and Daniela Becker

Subjects

Reciclagem química, glicólise, espuma rígida de poliuretano, Polyurethane, chemical recycling, glycolysis, rigid polyurethane foam, Chemical technology, TP1-1185

Abstract

Um dos grandes problemas da atualidade é o destino final adequado dos materiais, que não podem ser reutilizados no processo de origem. Dentre os resíduos estão as espumas rígidas de poliuretanos (PUR), que são materiais com ampla aplicação, mas apresentam dificuldades de reaproveitamento tecnológico por serem materiais termorrígidos. O objetivo deste trabalho é aplicar o processo de reciclagem química por glicólise e utilizar o poliol reciclado, produto da reação de glicólise, como parte da matéria prima para formação de espumas rígidas de poliuretano e analisar suas propriedades físicas, mecânicas e térmicas. A formação das células da espuma com poliol reciclado foi avaliada por microscopia eletrônica de varredura (MEV). Os resultados mostram que, nas condições estudadas, não há perdas das propriedades mecânicas e térmicas da espuma de PUR com a utilização de poliol reciclado, satisfazendo as necessidades para aplicação na produção de refrigeradores domésticos.One of the major problems is the appropriate final destination of the materials or waste that can not be reused in the original process. Among the residues are rigid polyurethane foams, which are widely applied but difficult to reuse because they are thermosetting materials. The aim of this paper is to apply a chemical recycling process, glycolysis, and use the recycled polyol, product of glycolysis reaction, as part of the raw material for the formation of rigid polyurethane foams. Their mechanical properties and thermal conductivity were analyzed. The formation of foam cells with recycled polyol were evaluated by scanning electron microscopy (MEV). The results show that there is no loss of mechanical and thermal properties of PUR foam, satisfying the requirements for the production of domestic refrigerators.

Published

2012

42. Influence of Reprocessing in the formation of functional groups during low density polyethylene aging

Author

Maurício M. Selonke, Tiago F. Moreira, Lincon L. Schafranski, Adriane Bassani, Benjamim de M. Carvalho, Luís A. Pinheiro, Rosilene A. Prestes, and Denise M. Almeida

Subjects

Low density polyethylene, multiple extrusions, factorial design, functional groups formation, Chemical technology, TP1-1185

Abstract

In recent years, the interest in polymer recycling has increased. However, in every reprocessing step the material undergoes shear stress and is affected by temperature and oxygen. The aim of this paper is to investigate the influence of multiple extrusion in the generation of functional groups, namely hydroperoxide, carbonyl, and transvinylene. Low density polyethylene was reprocessed three times in a single screw extruder. In each recycling step hot pressed films were prepared. These films were submitted to a heat treatment in an oven with air circulation and renovation to proceed with aging tests at different times and temperatures. The results obtained showed that all functional groups had their concentration increased with the increase in number of reprocessing, the aging time and temperature of the heat treatment. The factorial design was applied to verify the influence of these parameters. All the parameters had significant effects, since their regression coefficients had the same order of magnitude, with the most influential parameter being the aging temperature, followed by the aging time and number of extrusions. Most of the interactions were influential, indicating that the formation of functional groups depends upon their interaction, and not only on their isolated effects.

Published

2012

43. Análise térmica da poliacrilonitrila plastificada com glicerol em extrusora Thermal analysis of extruded polyacrylonitrile plasticized by glycerol

Author

Carlos A. R. Brito Júnior, Robson R. Fleming, Luiz C. Pardini, and Nilton P. Alves

Subjects

Poliacrilonitrila, glicerina, análise térmica, método de Kissinger, Polyacrylonitrile, glycerin, thermal analysis, Kissinger's method, Chemical technology, TP1-1185

Abstract

Neste trabalho são apresentados resultados de análise térmica para poliacrilonitrila (PAN) plastificada com glicerina. Foram observados os efeitos da glicerina de alta pureza (glicerol) e demais aditivos à base de glicóis na fusão e degradação térmica da PAN pela técnica de DSC sob alta taxa de aquecimento (90 °C/min) e atmosfera inerte. Foi constatado que o glicerol reduziu a temperatura de fusão da PAN de 290 °C para 217 °C. Em uma etapa preliminar foi empregado o método de Kissinger para verificar o efeito da composição química da PAN sob sua degradação térmica. A energia de ativação aparente para o copolímero de PAN foi calculada em 149 kJ.mol-1. Sugeriu-se que a presença do comonômero acetato de vinila (AV) na composição química da PAN proporcionou menor entalpia de degradação (353 J.g-1) em comparação com outros comonômeros constituintes de uma PAN precursora de fibras de carbono (988 J.g-1).This paper presents results from thermal analysis of polyacrylonitrile (PAN) plasticized with glycerin, where effects from the high purity glycerin (glycerol) and other additives to glycol were studied. Using differential scanning calorimetry (DSC) at high heating rate (90 °C/min) and inert atmosphere, we observed a decrease in the melting temperature of PAN (from 290 °C to 217 °C) owing to the presence of glycerol. The Kissinger's method was used to investigate the kinetics of thermal degradation for acrylonitrile (AN) with vinyl acetate (AV). The apparent activation energy for the copolymer AN/AV was calculated as 149 kJ.mol-1. The AV comonomer resulted in a lower degradation enthalpy for the copolymer AN/AV (353 J.g-1) compared with the comonomers comprising a precursor PAN for carbon fibers (988 J.g-1).

Published

2012

44. Influence of Reprocessing in the formation of functional groups during low density polyethylene aging

Author

Maurício M. Selonke, Tiago F. Moreira, Lincon L. Schafranski, Adriane Bassani, Benjamim de M. Carvalho, Luís A. Pinheiro, Rosilene A. Prestes, and Denise M. Almeida

Subjects

Low density polyethylene, multiple extrusions, factorial design, functional groups formation, Chemical technology, TP1-1185

Abstract

In recent years, the interest in polymer recycling has increased. However, in every reprocessing step the material undergoes shear stress and is affected by temperature and oxygen. The aim of this paper is to investigate the influence of multiple extrusion in the generation of functional groups, namely hydroperoxide, carbonyl, and transvinylene. Low density polyethylene was reprocessed three times in a single screw extruder. In each recycling step hot pressed films were prepared. These films were submitted to a heat treatment in an oven with air circulation and renovation to proceed with aging tests at different times and temperatures. The results obtained showed that all functional groups had their concentration increased with the increase in number of reprocessing, the aging time and temperature of the heat treatment. The factorial design was applied to verify the influence of these parameters. All the parameters had significant effects, since their regression coefficients had the same order of magnitude, with the most influential parameter being the aging temperature, followed by the aging time and number of extrusions. Most of the interactions were influential, indicating that the formation of functional groups depends upon their interaction, and not only on their isolated effects.

Published

2012

45. Estudo do comportamento de compostos de PVC com adição de amido Study of the behavior of PVC compounds with added starch

Author

Lisandra Abatti and Nei S. Domingues Junior

Subjects

PVC, amido, propriedades mecânicas, degradação, starch, mechanical properties, degradation, Chemical technology, TP1-1185

Abstract

Este trabalho apresenta o estudo do comportamento de compostos de PVC com adição de amido para aplicação especialmente na indústria calçadista. As propriedades mecânicas dos compostos nas proporções de 5, 7,5 e 10% foram estudadas através de ensaios de tração. Também foram verificados os índices de fluidez, alterações de propriedades quando submetidos ao envelhecimento artificial em estufa e natural ao expor às intempéries e enterrar no solo. A viabilidade da aplicação na indústria calçadista foi feita por injeção em gáspeas e tiras de sandálias, com testes de resistência, flexão e testes de campo. Os resultados demonstraram que o acréscimo de amido ao PVC provoca perda nas propriedades mecânicas, justificado pela baixa resistência mecânica do amido em relação ao PVC. Após envelhecimento em estufa o processo de retrogradação do amido deixa os compostos mais rígidos e com menor fluidez. Quando expostos às intempéries e ao solo, o PVC pode ser degradado com perda de HCl, o que leva à acidificação do solo. Nas aplicações em calçados e sandálias a resistência mecânica não atende aos requisitos do mercado. Apesar do baixo custo, o fraco comportamento mecânico dificulta sua viabilização para substituição em escala.This paper deals with the behavior of PVC compounds with addition of starch for applications, especially in the footwear industry. The mechanical properties of the compounds in the proportions of 5, 7.5 and 10% were studied using tensile tests. Also investigated were the flow rates, in addition to changes in properties when the material was subjected to artificial aging in an oven and exposed to natural weather and buried in the soil. The feasibility of application in the industry was evaluated with tests of endurance, strength and field tests in injection uppers and straps of sandals. The results showed that the addition of starch to PVC causes loss of mechanical properties, owing to the lower mechanical strength of starch compared to PVC. After aging in an oven, starch is degraded, thus causing the compound more rigid and less fluid. When exposed to weather and soil, PVC can be degraded with loss of HCl, which leads to soil acidification. In conclusion, for applications in footwear and sandals, the mechanical strength does not meet the market requirements. Despite the low cost, the poor mechanical behavior makes them unviable for mass scale production.

Published

2011

46. Síntesis de microcápsulas de poliurea a partir de aminas renovables, mediante doble emulsificación Synthesis of polyurea microcapsules from renewable amines by double emulsification

Author

Paula Mazo, Luis A Rios, and Gloria Restrepo

Subjects

Microencapsulación, poliurea, lisina, poliglicerol poliricinoleato, Microencapsulation, polyurea, lysine, polyglycerol polyricinoleate, Chemical technology, TP1-1185

Abstract

En este trabajo se realizó la microencapsulación de un perfume comercial mediante una doble emulsificación, la coraza de poliurea fue sintetizada por la reacción de Lisina con dos diisocianatos comerciales, uno aromático y otro alifático. En la síntesis se evaluó el efecto que tiene la relación molar amina:diisocianato y el tipo de emulsificante. Se optimizó el tamaño de partícula utilizando un diseño factorial 32 y análisis de superficie de respuesta, las variables fueron: cantidad de alcohol polivinílico y la relación de fase dispersa a fase continua. Las microcápsulas se caracterizaron mediante: análisis de calorimetría diferencial de barrido (DSC), espectroscopía infrarroja (IR), microscopía electrónica de barrido (SEM) y tamaño medio de partícula. La doble emulsificación permite un mayor rendimiento de encapsulación del perfume, las micropartículas presentan un menor tamaño de partícula cuando: se emplea diisocianato aromático, un aumento de coloide protector (PVA) y una disminución de la fase dispersa.This paper reports on the microencapsulation of a commercial perfume by means of a double emulsification, where the polyurea shell was synthesized by the reaction of lysine with two commercial di-isocyanates (aromatic and aliphatic). In the synthesis the factors evaluated were the amine:di-isocyanate molar ratio and the type of emulsifier. The particle size was optimized using a 3² factorial design and response surface analysis, with the following variables: amount of polyvinyl alcohol and the relationship of the disperse phase to continuous phase. The microcapsules were characterized using differential scanning calorimetry analysis (DSC), infrared spectroscopy (IR), scanning electron microscopy (SEM) and mean particle size. The double emulsification allows for a greater yield in the encapsulation of perfume. Furthermore, the microparticles have a smaller particle size when the aromatic di-isocyanate was used, also leading to an increase in the protective colloid (polyvinyl alcohol (PVA)) and reduction of the disperse phase.

Published

2011

47. Síntesis de poli ácido láctico y poli ricinoleato empleando calentamiento por microondas y su utilización en la producción de termoplasticos de poliuretano Synthesis of poly lactic acid and poly ricinoleate using microwave heating and their use in the production of polyurethane thermoplastic

Author

Paula Mazo, Luis A. Rios, and Gloria Restrepo

Subjects

Poliuretano termoplástico, poli(DL ácido Láctico), poliricinoleato, Thermoplastic polyurethane, poly(DL lactic acid), polyricinoleate, Chemical technology, TP1-1185

Abstract

En este trabajo se realiza la síntesis de poliuretano termoplástico (TPU) utilizando oligómeros sintetizados a partir de ácido DL Láctico y ácido ricinoléico. Estos polioles fueron obtenidos desde fuentes renovables, mediante la policondensación de los monómeros sin catalizador. Se evalúo el efecto de las microondas en las reacciones, donde se encuentraron efectos no térmicos que disminuyen la energía de activación y aumentan la constante de velocidad, en una cinética de tercer orden; el seguimiento y la caracterización de los productos intermedios se realiza mediante la cuantificación de valor ácido por titulación (ASTM D4662 - 03) y número de hidroxilos (ASTM D4274 - 05). Los termoplásticos obtenidos se caracterizan mediante las siguientes pruebas: resistencia tensil y % elongación (ASTM D882-97), análisis de calorimetría diferencial de barrido (DSC), espectroscopía infrarroja (IR) y microscopía de fuerza atómica (AFM). Los TPU se obtuvieron con un porcentaje de segmentos suaves del 50%, todos presentan morfología segmentada y segregación de fases. Las formulaciones con poli(DL ácido Láctico) y Difenilmetanodiisocianato (MDI) presentan la mayor rigidez y temperatura de transición vítrea (Tg).In this paper we report on the synthesis of thermoplastic polyurethane (TPU) using oligomers synthesized from DL Lactic acid and ricinoleic acid. These polyols were obtained from renewable sources by polycondensation of monomers without catalysts. The effect of microwaves on the reactions was evaluated, where non-thermal effects were found to lower the activation energy and increase the rate constant in a third-order kinetics. The monitoring and characterization of intermediate products was done by quantification of acid value by titration (ASTM D4662 - 03) and hydroxyl number (ASTM D4274 - 05). Thermoplastics obtained are characterized by the following tests: tensile strength and elongation percentage (ASTM D882-97), analysis of differential scanning calorimetry (DSC), infrared spectroscopy (IR) and atomic force microscopy (AFM). TPU was obtained with a percentage of 50% soft segments, all have segmented morphology and segregation of phases. The formulations with poly(DL lactic acid) and Methylene diphenyl diisocyanate (MDI) have the highest stiffness and glass transition temperature (Tg).

Published

2011

48. Reciclagem de rejeitos de poli(tereftalato de etileno) (PET) e de poliamida (PA) por meio de extrusão reativa para a preparação de blendas Recycling of wastes from poly(ethylene tereftalate) (PET) and polyamide (PA) by reactive extrusion for preparation of polymeric blends

Author

Caio T Ferreira, Juliana B. da Fonseca, and Clodoaldo Saron

Subjects

Reciclagem, PET, poliamida, blendas, extrusão reativa, Recycling, polyamide, blends, reactive extrusion, Chemical technology, TP1-1185

Abstract

O consumo crescente de materiais poliméricos em diversas formas de aplicação leva à produção de uma quantidade enorme de resíduos pós-consumo e pós-industriais com potencial poluidor elevado. A reciclagem mecânica é uma das maneiras mais adequadas para contornar os problemas gerados por estes rejeitos, uma vez que permite conciliar interesse econômico com benefícios ambientais. Neste trabalho foi feito um estudo sobre a reciclagem de rejeitos pós-industriais de poli(tereftalato de etileno) (PET) provenientes da fabricação de mantas de tecido não tecido e de resíduos de poliamida (PA) oriundos de pneus usados na forma de blendas, produzidas por meio de extrusão reativa dos dois resíduos em presença de catalisador. Os resultados obtidos a partir de caracterização térmica e química das blendas evidenciaram a ocorrência de trans-reações entre segmentos de cadeia polimérica dos dois polímeros, possibilitando a compatibilização do sistema. A produção de blendas PET/PA se configura como uma forma adequada para a reciclagem dos rejeitos de PET e de PA.The increasing use of polymeric materials in several applications leads to the production of a high amount of post consume and post industrial wastes with expressive pollutant potential. Mechanical recycling is an important way to decrease the problems caused by these wastes because it allows one to associate economic viability with environmental benefits. In this paper a study was carried out on the recycling of poly(ethylene tereftalate) (PET) wastes from the production of nonwoven fabrics (NWF) and of polyamide (PA) wastes from old tires for production of polymeric blends via reactive extrusion in the presence of trans-reaction catalysts. The results from thermal and chemical characterization indicated trans-reactions between segments of polymeric chains of the two polymers, promoting the system compatibilization. The production of PET/PA blends is an interesting alternative for recycling PET and PA wastes.

Published

2011

49. Produção de alginato por microrganismos Alginate production by microorganisms

Author

José Miguel Müller, Renata Lopes dos Santos, and Riveli Vieira Brigido

Subjects

Azotobacter, Pseudomonas, alginato, alginato bacteriano, biopolímero, alginate, bacterial alginate, biopolymer, Chemical technology, TP1-1185

Abstract

O alginato é um copolímero linear constituído de unidades de ácidos α-L-gulurônicos e β-D-manurônicos e é extensamente utilizado devido as suas propriedades espessantes, estabilizantes e gelificantes. Estas características fazem com que este biopolímero encontre aplicações na indústria de alimentos, na indústria têxtil e de papel, em cosméticos e na área farmacêutica e médica. Atualmente para este conjunto de aplicações sua principal fonte são algas marrons, entretanto, o alginato pode ser obtido a partir de biossíntese, utilizando-se microrganismos do gênero Pseudomonas e Azotobacter. A produção bacteriana de alginato apresenta-se como uma alternativa interessante e sua produção por microrganismos, além de possibilitar a produção de biopolímeros de alta qualidade com características específicas e pré-determinadas, irá diminuir o impacto ambiental nas regiões em que as algas marinhas das quais é extraído são coletadas. Nos últimos anos, vários estudos relacionados à produção de alginato por microrganismos foram realizados com o objetivo de avaliar sua produção e rota metabólica de biossíntese, para caracterizar o material produzido e para determinar as potencialidades de aplicação deste novo material. O rápido desenvolvimento de aplicações do alginato na área médica e farmacêutica, bem como a descoberta de propriedades imunológicas únicas deste material tem aumentado o interesse no desenvolvimento de processos para produzi-lo. Neste artigo são abordados aspectos relacionados à produção e as características do alginato bacteriano e também reportadas às potencialidades e aplicações inovadoras nas quais este material vem sendo utilizado.Alginate is a linear copolymer consisting of units of α-L-guluronic and β-D-mannuronic acid which is widely used due to its thickening, stabilizing and gelling properties. These characteristics mean that it has many applications in the food, textile, paper, cosmetics and pharmaceutical industries, as well as in the medical area. Currently, the main source of alginate for such applications is brown algae; however, this biopolymer can be obtained through biosynthesis, using micro-organisms of the genera Pseudomonas and Azotobacter. The bacterial production of alginate represents an interesting alternative since, in addition to enabling the production of high quality polymers with predetermined and specific characteristics, it can reduce the environmental impact in areas from which the seaweed is collected. In recent years, several studies related to the production of alginate by microorganisms have been performed to evaluate the production process and metabolic pathway of biosynthesis, to characterize the material produced and to determine the potential applications of this new material. The rapid development of new applications of alginate in the medical and pharmaceutical areas, as well as the discovery of the unique immunological properties of this material, has led to increased interest in finding novel processes for its production. This article examines aspects of the production of bacterial alginate and the characteristics of the material obtained, and also addresses potential and innovative applications for the use of this material.

Published

2011

50. Estudo da polimerização do 2-metil, 1,3-butadieno via catalisadores lantanídicos: influência do tipo de alquilalumínio, da temperatura reacional e da concentração do catalisador Polymerization of 2-methyl, 1,3-butadiene via lanthanides catalysts: influence from the type of alkylaluminum, concentration and reaction temperature and catalyst

Author

André L. C. Simões, Neusa M. T. Pires, Mauro de C. B. Dolinsky, Marco A. P. Dias, and Fernanda M. B. Coutinho

Subjects

Poli-1, 4-cis-isopreno, isopreno, neodímio, catalisadores ziegler-Natta, Poly-1, 4-cis-isoprene, isoprene, neodymium, ziegler-natta catalyst, Chemical technology, TP1-1185

Abstract

Os catalisadores lantanídicos são muito eficientes na polimerização estereoespecífica de dienos, principalmente aqueles à base de neodímio. Neste trabalho será apresentado o estudo da polimerização do 2-metil, 1,3-butadieno com catalisadores à base de neodímio, utilizados comercialmente na polimerização do 1,3-butadieno. Foi estudado o efeito da temperatura, do tipo de alquilalumínio e da concentração de catalisador. As reações foram realizadas em reator de aço inox sob atmosfera inerte, usando como solvente o hexano e uma concentração de 2-metil, 1,3-butadieno de 12%. Foram obtidos polímeros com massas molares na faixa de 1,0 a 1,5 × 105 e teor de unidades repetitivas cis em torno de 97%.The rare earth metals catalysts are very efficient in stereospecific polymerization of dienes, especially those of neodymium. This paper reports on the polymerization of 2-methyl, 1,3-butadiene with catalysts of neodymium, used commercially in polymerization of 1,3-butadiene. Effects were studied from the temperature, type of alkylaluminum, and from the concentration of catalyst. The reactions were carried out in a stainless steel reactor under an inert atmosphere, using hexane as the solvent and a concentration of 12% of 2-methyl, 1,3-butadiene. Polymers were obtained with molecular weight from 1.0 to 1.5 × 105, with ca. 97% of cis repeating units.

Published

2011