Your search keyword '"Sara Filippi"' showing total 87 results

1. Evaluating the Efficiency of Chitosan‐Graphene Oxide Hybrid Hydrogels as Drug Delivery Systems

Author

Mariagrazia Di Luca, Ensieh Poursani, Manuela Curcio, Giuseppe Cirillo, Antonietta Salerno, Sara Bolognini, Giovanni De Filpo, Sara Filippi, Orazio Vittorio, Francesca Iemma, and Fiore Pasquale Nicoletta

Subjects

antimicrobial, chitosan, electro‐responsive release, graphene oxide, hybrid hydrogels, Materials of engineering and construction. Mechanics of materials, TA401-492, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Abstract With the objective of creating an electro‐responsive and antimicrobial device suitable as delivery system for Rose Bengal (RB) to the skin, a hybrid hydrogel combining Chitosan (CS) and Graphene Oxide (GO) are designed, serving as functional polymer support and active filling element, respectively. The hybrid system, synthesized using tripolyphosphate as a crosslinker via ionic gelation, shows a uniform and homogeneous surface, as verified by SEM investigations, high biocompatibility when tested on human fibroblast lung cells MRC‐5 cells, and biodegradability in phosphate buffered medium at physiological pH. Drug loading and release experiments, extensively analyzed using suitable mathematical modeling, shows the enhancement of the binding efficiency conferred by GO (534 and 979 mg g−1 for blank and hybrid hydrogels, respectively) and an electro‐responsive behavior (maximum BR release of 36 and 23% at 0 and 12 V, respectively). Additionally, hybrid hydrogel is found to prevent the adhesion of methicillin‐resistant Staphylococcus aureus and to kill the bacterial cells by taking advantage of the sustained release of the antimicrobial RB.

Published

2023

2. From Waste Vegetable Oil to a Green Compatibilizer for HDPE/PA6 Blends

Author

Miriam Cappello, Giovanna Strangis, Patrizia Cinelli, Caterina Camodeca, Sara Filippi, Giovanni Polacco, and Maurizia Seggiani

Subjects

high-density polyethylene (HDPE), polyamide-6 (PA6), waste vegetable oil, compatibilizer precursor, polymer blends, Organic chemistry, QD241-441

Abstract

When properly compatibilized, the blending of polyethylene (PE) and polyamide (PA) leads to materials that combine low prices, suitable processability, impact resistance, and attractive mechanical properties. Moreover, the possibility of using these polymers without prior separation may be a suitable opportunity for their recycling. In this work, the use of an epoxidized waste vegetable oil (EWVO) was investigated as a green compatibilizer precursor (CP) for the reactive blending of a high-density PE (HDPE) with a polyamide-6 (PA6). EWVO was synthesized from waste vegetable cooking oil (WVO) using ion-exchange resin (Amberlite) as a heterogeneous catalyst. HDPE/PA6 blends were produced with different weight ratios (25/75, 75/25, 85/15) and amounts of EWVO (1, 2, 5 phr). Samples with WVO or a commercial fossil-based CP were also prepared for comparison. All the blends were characterized by scanning electron microscopy (SEM), differential scanning calorimetry (DSC), rheology, and mechanical tests. In the case of HDPE/PA6 75/25 and 85/15 blends, the addition of EWVO at 2 phr showed a satisfactory compatibilizing effect, thus yielding a material with improved mechanical properties with respect to the blend without compatibilizer. On the contrary, the HDPE/PA6 25/75 ratio yielded a material with a high degree of crosslinking that could not be further processed or characterized. In conclusion, the results showed that EWVO had a suitable compatibilizing effect in HDPE/PA6 blends with high HDPE content, while it resulted in unsuitable for blends with high content of PA6.

Published

2023

3. New Materials and Technologies for Durability and Conservation of Building Heritage

Author

Luigi Coppola, Tiziano Bellezze, Alberto Belli, Alessandra Bianco, Elisa Blasi, Miriam Cappello, Domenico Caputo, Mehdi Chougan, Denny Coffetti, Bartolomeo Coppola, Valeria Corinaldesi, Alberto D’Amore, Valeria Daniele, Luciano Di Maio, Luca Di Palma, Jacopo Donnini, Giuseppe Ferrara, Sara Filippi, Matteo Gastaldi, Nicola Generosi, Chiara Giosuè, Loredana Incarnato, Francesca Lamastra, Barbara Liguori, Ludovico Macera, Qaisar Maqbool, Maria Cristina Mascolo, Letterio Mavilia, Alida Mazzoli, Franco Medici, Alessandra Mobili, Giampiero Montesperelli, Giorgio Pia, Elena Redaelli, Maria Letizia Ruello, Paola Scarfato, Giuliana Taglieri, Francesca Tittarelli, Jean-Marc Tulliani, and Antonino Valenza

Subjects

durability, concrete structures, sustainability, new materials, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The increase in concrete structures’ durability is a milestone to improve the sustainability of buildings and infrastructures. In order to ensure a prolonged service life, it is necessary to detect the deterioration of materials by means of monitoring systems aimed at evaluating not only the penetration of aggressive substances into concrete but also the corrosion of carbon-steel reinforcement. Therefore, proper data collection makes it possible to plan suitable restoration works which can be carried out with traditional or innovative techniques and materials. This work focuses on building heritage and it highlights the most recent findings for the conservation and restoration of reinforced concrete structures and masonry buildings.

Published

2023

4. Wood Residue-Derived Biochar as a Low-Cost, Lubricating Filler in Poly(butylene succinate-co-adipate) Biocomposites

Author

Miriam Cappello, Damiano Rossi, Sara Filippi, Patrizia Cinelli, and Maurizia Seggiani

Subjects

Poly(butylene succinate-co-adipate), PBSA, biochar, biopolymers, biocomposite, thermoplastic composites, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This study focused on the development of a novel biocomposite material formed by a thermoplastic biodegradable polyester, poly(butylene succinate-co-adipate) (PBSA), and a carbonaceous filler as biochar (BC) derived by the pyrolysis of woody biomass waste. Composites with various BC contents (5, 10, 15, and 20 wt.%) were obtained by melt extrusion and investigated in terms of their processability, thermal, rheological, and mechanical properties. In all the composites, BC lowered melt viscosity, behaving as a lubricant, and enhancing composite extrudability and injection moulding at high temperatures up to 20 wt.% of biochar. While the use of biochar did not significantly change composite thermal stability, it increased its stiffness (Young modulus). Differential scanning calorimeter (DSC) revealed the presence of a second crystal phase induced by the filler addition. Furthermore, results suggest that biochar may form a particle network that hinders polymer chain disentanglement, reducing polymer flexibility. A biochar content of 10 wt.% was selected as the best trade-off concentration to improve the composite processability and cost competitiveness without compromising excessively the tensile properties. The findings support the use of biochar as a sustainable renewable filler and pigment for PBSA. Biochar is a suitable candidate to replace more traditional carbon black pigments for the production of biodegradable and inexpensive innovative PBSA composites with potential fertilizing properties to be used in agricultural applications.

Published

2023

5. A Window of Vulnerability: Chronic Environmental Stress Does Not Impair Reproduction in the Swordfish Xiphias gladius

Author

Giorgia Gioacchini, Sara Filippi, Rossella Debernardis, Luca Marisaldi, Riccardo Aiese Cigliano, and Oliana Carnevali

Subjects

oogenesis, health, puberty, RNA-seq, melanomacrophage, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Xiphias gladius is an important fishing resource. The Mediterranean stock is affected by overfishing and is declining. In this light, the aim of this study was to evaluate the cross-talk among metabolism, stress response, immune system and reproduction in immature and mature females, coupling histological and transcriptomic approaches. The transcriptome of livers from 3 immature and 3 mature females was analyzed using the Artificial Intelligence RNA-Seq. For the histological analysis, ovary and liver samples were collected from 50 specimens caught during the reproductive season in the Mediterranean Sea. A total of 750 genes were differentially expressed between the livers. The gene ontologtabey analysis showed 91 upregulated and 161 downregulated biological process GO terms. Instead, the KEGG enrichment analysis revealed 15 enriched pathways. Furthermore, the binding occurring between estrogen receptors and aryl hydrocarbon receptor nuclear translocator, upregulated in mature females, could be liable for the inhibition of detoxification pathway. Indeed, at the histological level, mature females showed a higher density and number of melanomacrophage centers, biomarkers of stress. The present findings reveal the cross-talk among response to environmental stressors, metabolism and reproduction, highlighting that mature females invest a lot of energy in reproduction instead of immune response and detoxification.

Published

2023

6. Use of Recycled Oils as Rejuvenators for Bituminous Binders

Author

Norma Mallegni, Miriam Cappello, Sara Filippi, Pietro Leandri, Giovanni Polacco, and Massimo Losa

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

The addition of rejuvenators agents (RJ) into bitumen allows increasing the amount of recycled asphalt in new mixtures. In the preliminary part of this study, three different type of oils were tested as potentials RJ: a mineral oil from the automotive industry, a waste domestic cooking vegetable oil (VO), and a biodiesel. Several mixtures were prepared by adding different percentage of oils and VO was individuated as the best RJ. Therefore, VO was used in a further investigation, to better characterize the properties of the rejuvenated binder and its resistance to aging during a second life cycle. Rejuvenated binders with different oil content were prepared and evaluated. The rheological characterization included frequency sweep tests to obtain the binder master curves and linear amplitude sweep test to evaluate the cumulative damage resistance. Moreover, the molecular weight distributions of the binders were investigated by both gel permeation chromatography and rheology by application of the delta-method.

Published

2021

7. Apparent Molecular Weight Distributions in Bituminous Binders

Author

Giovanni Polacco, Miriam Cappello, Giacomo Cuciniello, and Sara Filippi

Subjects

bitumen, apparent molecular weight distribution, gel permeation chromatography, linear viscoelastic functions, delta method, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Molecular weight distributions are widely used to evaluate the effects of aging or modifiers in bituminous binders. As with polymers, the most common techniques to obtain the distributions can be subdivided into two main groups, depending on whether or not they use a solvent. In the first group, the dimension of the molecules is evaluated in a diluted unperturbed state, while, in the second, the dimension derives from the bulk, where aggregated or interacting molecules may behave as single entities. However, the calibration curves used in the bulk are tuned in order to homogenize the results derived from the two approaches. This sort of contradiction, plus the high number of experimental uncertainties, suggest that the term “apparent” should be used for both distributions. These aspects are well known in the field of polymers but have received less attention in the case of bitumens, which are even more complex. This paper pinpoints the advantages and disadvantages of the two techniques, thus highlighting the most appropriate use. Bulk methods are preferred when evaluating properties that are strictly dependent on the microstructure, such as the level of aging and the effects of additives or modifiers. Diluted methods should be used when the molecular size matters, such as in quantifying the presence of polymers or rejuvenators. Both techniques should be used for comparative studies only.

Published

2022

8. Apparent Molecular Weight Distributions for Investigating Aging in Polymer-Modified Bitumen

Author

Miriam Cappello, Sara Filippi, Yvong Hung, Massimo Losa, and Giovanni Polacco

Subjects

Polymers and polymer manufacture, TP1080-1185

Abstract

The oxidative aging of bituminous binders affects the performance and durability of pavements. In the case of polymer-modified binders, aging involves both bitumen and polymers and has a strong impact on the whole architecture of the material. Rheology may help in understanding these structural changes, and interesting information may be obtained by analysing the evolution of apparent molecular weight distributions. This was demonstrated with a bituminous binder modified with a poly(styrene-butadiene) block copolymer and subjected to prolonged artificial aging. Isothermal frequency sweep tests were used to construct master curves of the phase angle and magnitude of the complex modulus. The master curves were then used to calculate relaxation spectra and apparent molecular weight distributions of the binders, as well as simulated temperature sweep tests. A comparison of the behaviour of the base and modified bitumen highlighted the role of the polymer in aging. Polymer degradation significantly damages the elastomeric network, yet the residual polymer chains still interact with the bitumen molecules and reduce their oxidative aging. The apparent molecular weight distributions were deconvoluted to create an aging index specifically developed for polymer-modified bitumen.

Published

2021

9. Extraction of Polyhydroxyalkanoates from Purple Non-Sulfur Bacteria by Non-Chlorinated Solvents

Author

Sara Filippi, Patrizia Cinelli, Andrea Mezzetta, Pietro Carlozzi, and Maurizia Seggiani

Subjects

purple non-sulfur photosynthetic bacteria, polyhydroxyalkanoates, extraction, non-chlorinated solvent, ionic liquids, Organic chemistry, QD241-441

Abstract

In this study, non-chlorinated solvents such as cyclohexanone (CYC) and three ionic liquids, (ILs) (1-ethyl-3-methylimidazolium dimethylphosphate, [EMIM][DMP], 1-ethyl-3-methylimidazolium diethylphosphate, [EMIM][DEP] and 1-ethyl-3-methylimidazolium methylphosphite, [EMIM][MP]) were tested to extract polyhydroxyalkanoates (PHAs) from the purple non-sulfur photosynthetic bacterium (PNSB) Rhodovulumsulfidophilum DSM-1374. The photosynthetic bacterium was cultured in a new generation photobioreactor with 4 L of working volume using a lactate-rich medium. The extracted PHAs were characterized using a thermogravimetric analysis, differential scanning calorimetry, infrared spectroscopy, proton nuclear magnetic resonance and gel permeation chromatography. The most promising results were obtained with CYC at 125 °C with an extraction time of above 10 min, obtaining extraction yields higher than 95% and a highly pure poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHB-HV) with around 2.7 mol% of hydroxylvalerate (HV). A similar yield and purity were obtained with chloroform (CHL) at 10 °C for 24 h, which was used as the referent solvent Although the three investigated ILs at 60 °C for 4 and 24 h with biomass/IL up to 1/30 (w/w) obtained PHAs strongly contaminated by cellular membrane residues, they were not completely solubilized by the investigated ILs.

Published

2021

10. Use of Linear Viscoelastic Functions to Estimate the Aging Resistance and Internal Structure of Bituminous Binders

Author

Miriam Cappello, Giovanni Polacco, Julien Crépier, Yvong Hung, and Sara Filippi

Subjects

bitumen, rheology, layered silicates, aging, master curves, δ-method, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Rheology is the most widely used technique to evaluate the performance and aging of bituminous binders. Since there are many available rheological tests, there is also a wide range of aging indexes and it is not easy to choose the most appropriate one, because a single value may hardly be adequate for different properties or operating conditions. In order to generalize the usefulness of an index, a good starting point is deriving it from a set of data, such as the master curves of linear viscoelastic functions. Then, the problem is the quantification of aging in a single numerical value from continuous curves, covering a wide range of frequencies/temperatures. In this work, a summary of the aging indexes derived from the master curves is reported and discussed. The indexes are applied to a bituminous binder either with or without the addition of an organo-modified layered silicate. The apparent molecular weight distributions and relaxation spectra were also calculated from the master curves and used to characterize the effect of aging on the binder properties and structure. In this way, an interesting parallelism was observed between the SARA fractions and the populations derived from a deconvolution analysis of the apparent molecular weight distributions.

Published

2021

11. XRD study of intercalation in statically annealed composites of ethylene copolymers and organically modified montmorillonites. 2. One-tailed organoclays

Author

Sara Filippi and Giovanni Polacco

Subjects

ethylene copolymers, one-tailed organoclays, annealing, X-ray diffraction, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Ethylene copolymers with different polar comonomers, such as vinyl acetate, methyl acrylate, glycidyl methacrylate, and maleic anhydride, were used for the preparation of polymer/clay nanocomposites by statically annealing their mechanical mixtures with different commercial or home-made organically modified montmorillonites containing only one long alkyl tail. The nanostructure of the products was monitored by X-ray diffraction, and the dispersion of the silicate particles within the polymer matrix was qualitatively evaluated through microscopic analyses. The effect of the preparation conditions on the structure and the morphology of the composites was also addressed through the characterization of selected samples with similar composition prepared by melt compounding. In agreement with the findings reported in a previous paper for the composites filled with two-tailed organoclays, intercalation of the copolymer chains within the tighter galleries of the one-tailed clays occurs easily, independent of the application of a mechanical stress. However, the shear-driven break-up of the intercalated clay particles into smaller platelets (exfoliation) seems more hindered. A collapse of the organoclay interlayer spacing was only observed clearly for a commercial one-tailed organoclay – Cloisite® 30B – whereas the same effect was almost negligible for a home-made organoclay with similar structure.

Published

2014

12. Innovative Biotic Symbiosis for Plastic Biodegradation to Solve their End-of-Life Challenges in the Agriculture and Food Industries

Author

Patrizia , Barbani, Niccoletta Barbani, Sara Filippi, Giovanna Strangis, Marco Sandroni, Antonio Pratelli, Maria J Lopez, Pablo Barranco, Tomas Cabello, Patricia Castillo, Marie Aline Pierrard, and Maurizia Seggiani

Subjects

General Energy, Geography, Planning and Development, General Environmental Science

Abstract

At present just about 30% of the waste plastic collected is efficiently recycled, while the rest is incinerated, disposed in landfills, or can end up in compost and be released in the environment, inducing a very negative effect on safety and health of flora and fauna. Sustainable management of hardly recyclable plastic waste generated by light weight single use packaging and agricultural films can be improved by applying biotechnological approaches, combining microorganisms, new enzymes, earthworms, and insects to work collaboratively, not only to promote the degradation of these plastics but also to obtain, by-products of the biodegradation process to be valorized as fertilizers, functional polysaccharides, etc. In order to develop a feasible process, mapping and characterization of the most diffused agri-food waste plastic were conducted isolating the main types of plastic involved. Plastic waste in agriculture is mainly constituted by polyethylene (PE) both linear low density (LLDPE) and high density (HDPE), polypropylene (PP) and polystyrene (PS), whereas in food packaging polyethylene is still present together with a large presence of polypropylene, polystyrene and polyethylene terephthalate (PET). Combining plastic presence and availability of organisms for their degradability, representative samples of plastics (PE, PET, PS) were selected for analysis of deterioration and potential subsequent biodegradation by enzymes and organisms. To monitor the plastic degradability by enzymes, and larvae, methods for the plastic analysis were set, outlining some differences in virgin and post consumer plastic in particular after use in agriculture, assessing the possibility to monitor the degradability of plastic with time and different treatments, in particular, some evidence of polyethylene degradability from larvae of Tenebrio molitor was observed.

Published

2022

13. Wood Residue-Derived Biochar as a Low-Cost, Lubricating Filler in Poly(butylene succinate-co-adipate) Biocomposites

Author

SARA FILIPPI, Miriam Cappello, MAURIZIA SEGGIANI, DAMIANO ROSSI, and Patrizia Cinelli

Subjects

General Materials Science, Poly(butylene succinate-co-adipate), PBSA, biochar, biopolymers, biocomposite, thermoplastic composites, injection moulding, lubricant, filler

Abstract

This study focused on the development of a novel biocomposite material formed by a thermoplastic biodegradable polyester, poly(butylene succinate-co-adipate) (PBSA), and a carbonaceous filler as biochar (BC) derived by the pyrolysis of woody biomass waste. Composites with various BC contents (5, 10, 15, and 20 wt.%) were obtained by melt extrusion and investigated in terms of their processability, thermal, rheological, and mechanical properties. In all the composites, BC lowered melt viscosity, behaving as a lubricant, and enhancing composite extrudability and injection moulding at high temperatures up to 20 wt.% of biochar. While the use of biochar did not significantly change composite thermal stability, it increased its stiffness (Young modulus). Differential scanning calorimeter (DSC) revealed the presence of a second crystal phase induced by the filler addition. Furthermore, results suggest that biochar may form a particle network that hinders polymer chain disentanglement, reducing polymer flexibility. A biochar content of 10 wt.% was selected as the best trade-off concentration to improve the composite processability and cost competitiveness without compromising excessively the tensile properties. The findings support the use of biochar as a sustainable renewable filler and pigment for PBSA. Biochar is a suitable candidate to replace more traditional carbon black pigments for the production of biodegradable and inexpensive innovative PBSA composites with potential fertilizing properties to be used in agricultural applications.

Published

2023

14. Apparent Molecular Weight Distributions in Bituminous Binders

Author

SARA FILIPPI, Miriam Cappello, Giovanni Polacco, and Giacomo Cuciniello

Subjects

General Materials Science

Abstract

Molecular weight distributions are widely used to evaluate the effects of aging or modifiers in bituminous binders. As with polymers, the most common techniques to obtain the distributions can be subdivided into two main groups, depending on whether or not they use a solvent. In the first group, the dimension of the molecules is evaluated in a diluted unperturbed state, while, in the second, the dimension derives from the bulk, where aggregated or interacting molecules may behave as single entities. However, the calibration curves used in the bulk are tuned in order to homogenize the results derived from the two approaches. This sort of contradiction, plus the high number of experimental uncertainties, suggest that the term “apparent” should be used for both distributions. These aspects are well known in the field of polymers but have received less attention in the case of bitumens, which are even more complex. This paper pinpoints the advantages and disadvantages of the two techniques, thus highlighting the most appropriate use. Bulk methods are preferred when evaluating properties that are strictly dependent on the microstructure, such as the level of aging and the effects of additives or modifiers. Diluted methods should be used when the molecular size matters, such as in quantifying the presence of polymers or rejuvenators. Both techniques should be used for comparative studies only.

Published

2022

15. A revised relationship between molecular weight and reduced angular frequency in δ-method applied to unmodified petroleum bitumens

Author

Sara Filippi, Giacomo Cuciniello, Giovanni Polacco, Pietro Leandri, and Miriam Cappello

Subjects

050210 logistics & transportation, Angular frequency, Materials science, master curve, 05 social sciences, Phase angle, 0211 other engineering and technologies, Analytical chemistry, δ-method, GPC, molecular weight distribution, phase angle, bitumen, 02 engineering and technology, chemistry.chemical_compound, chemistry, 021105 building & construction, 0502 economics and business, Molar mass distribution, Petroleum, Civil and Structural Engineering

Abstract

The δ-method has been developed to estimate molecular weight distributions of bitumens from phase-angle master curves. The method uses a correlation between the cross-over frequency(ωC) and the mol...

Published

2020

16. Use of Linear Viscoelastic Functions to Estimate the Aging Resistance and Internal Structure of Bituminous Binders

Author

Julien Crépier, Yvong Hung, Miriam Cappello, Giovanni Polacco, and Sara Filippi

Subjects

Work (thermodynamics), Technology, Materials science, QH301-705.5, QC1-999, relaxation spectrum, master curves, Viscoelasticity, Set (abstract data type), Rheology, Range (statistics), General Materials Science, Point (geometry), Biology (General), Instrumentation, QD1-999, bitumen, Fluid Flow and Transfer Processes, apparent molecular weight distribution, Process Chemistry and Technology, Physics, Aging, Apparent molecular weight distribution, Bitumen, Crossover modulus, Layered silicates, Master curves, Relaxation spectrum, δ-method, aging, General Engineering, crossover modulus, Engineering (General). Civil engineering (General), Computer Science Applications, Chemistry, Asphalt, layered silicates, rheology, Relaxation (approximation), TA1-2040, Biological system

Abstract

Rheology is the most widely used technique to evaluate the performance and aging of bituminous binders. Since there are many available rheological tests, there is also a wide range of aging indexes and it is not easy to choose the most appropriate one, because a single value may hardly be adequate for different properties or operating conditions. In order to generalize the usefulness of an index, a good starting point is deriving it from a set of data, such as the master curves of linear viscoelastic functions. Then, the problem is the quantification of aging in a single numerical value from continuous curves, covering a wide range of frequencies/temperatures. In this work, a summary of the aging indexes derived from the master curves is reported and discussed. The indexes are applied to a bituminous binder either with or without the addition of an organo-modified layered silicate. The apparent molecular weight distributions and relaxation spectra were also calculated from the master curves and used to characterize the effect of aging on the binder properties and structure. In this way, an interesting parallelism was observed between the SARA fractions and the populations derived from a deconvolution analysis of the apparent molecular weight distributions.

Published

2021

17. Microstructure and rheological response of laboratory-aged SBS-modified bitumens

Author

Pietro Leandri, Giovanni Polacco, Massimo Losa, D. Lo Presti, Sara Filippi, Gordon Airey, Giacomo Cuciniello, Cuciniello, G., Leandri, P., Filippi, S., Lo Presti, D., Polacco, G., Losa, M., and Airey, G.

Subjects

chemistry.chemical_classification, 050210 logistics & transportation, Polymer-modified bitumen, SBS, ageing, GPC, percent recovery, sulphur, MSCR, Materials science, Percent recovery, 05 social sciences, 0211 other engineering and technologies, MSCR, macromolecular substances, 02 engineering and technology, Polymer, Microstructure, Ageing, Sulphur, chemistry, Rheology, GPC, 021105 building & construction, 0502 economics and business, Hardening (metallurgy), Polymer-modified bitumen, Composite material, ageing, percent recovery, polymer-modified bitumen, SBS, sulphur, Civil and Structural Engineering

Abstract

Polymer additives are widely used to improve the performance of road bitumens including their resistance to hardening during oxidation, although their oxidative inhibitor effect has not been well documented. This study aims to investigate the effect of laboratory-simulated ageing on the microstructure, and rheological properties of Polymer Modified Bitumens (PMBs) prepared with a Styrene-Butadiene-Styrene (SBS) copolymer and sulphur as a cross-linker. The laboratory ageing was conducted through the Rolling Thin Film Oven (RTFO) and the Pressure Aging Vessel (PAV) procedures. The unaged and aged binders were characterised using the Multiple Stress Creep and Recovery (MSCR) test, Gel Permeation Chromatography (GPC) and fluorescence microscopy. The MSCR test showed that the cross-linked polymer had a higher capability of mitigating the effect of bitumen hardening on the rheological response, while for the PMBs without cross-linking, the polymer effects decreased significantly after RTFOT ageing. The GPC results showed that the aromatics, resins and asphaltenes fractions of the unmodified bitumens shifted towards heavier molecules after one cycle of PAV ageing but showed limited variation with further ageing. Similar behaviour was observed for the uncross-linked polymer binders, while for the cross-linked polymer binder, the behaviour depended on the polymer concentration.

Published

2021

18. Genetic identification and insights into the ecology of Contracaecum rudolphii A and C. rudolphii B (Nematoda: Anisakidae) from cormorants and fish of aquatic ecosystems of Central Italy

Author

Michela Paoletti, Gian Luca Sbaraglia, Marialetizia Palomba, Giuseppe Nascetti, Simonetta Mattiucci, Paolo Cipriani, and Sara Filippi

Subjects

030231 tropical medicine, contracaecum rudolphii (s. l.), Aphanius, Fresh Water, brackish water, fish, freshwater, genetic markers, wintering cormorants, Freshwater ecosystem, DNA, Mitochondrial, DNA, Ribosomal, 030308 mycology & parasitology, 03 medical and health sciences, Leuciscus, Fish Diseases, 0302 clinical medicine, biology.animal, Ascaridoidea, Animals, Ecosystem, 0303 health sciences, General Veterinary, biology, Ecology, Bird Diseases, Atherina boyeri, Cormorant, General Medicine, biology.organism_classification, Barbus barbus, Anisakidae, Infectious Diseases, Italy, Insect Science, Freshwater fish, Parasitology, Female

Abstract

Contracaecum rudolphii (s. l.) is a complex of sibling species of anisakid nematodes having the fish-eating birds belonging to the Family Phalacrocoracidae as final hosts. The great cormorant Phalacrocorax carbo sinensis is parasitized by C. rudolphii A and C. rudolphii B. Adults and L4 specimens of C. rudolphii (s. l.) (N = 3282) were collected in cormorants from brackish and freshwater ecosystems of Central Italy. Third-stage larvae of Contracaecum (N = 882) were obtained from the fish species Dicentrarchus labrax, Anguilla anguilla, Aphanius fasciatus, Atherina boyeri, Leuciscus cephalus, Barbus barbus, and Carassius carassius captured in the same geographical areas of cormorants’ standings. Contracaecum rudolphii A and C. rudolphii B were identified by a multilocus genetic approach: allozymes, sequences analysis of the mtDNA cox2, and ITS region of rDNA gene loci. Differential distribution of the two parasite species was observed in different aquatic environments. Contracaecum rudolphii B outnumbered C. rudolphii A in wintering cormorants from freshwater ecosystems; the opposite trend was found in cormorants from brackish water. Analogously, C. rudolphii A larvae were more prevalent in brackish water fish, while C. rudolphii B larvae were found infecting only freshwater fish. The findings seem to confirm that C. rudolphii A and C. rudolphii B would have a life-cycle adapted to brackish and freshwater environments, respectively. A differential feeding behavior of wintering cormorants, the ecology of the infected fish species, and abiotic factors related to early stages of the parasites are supposed to maintain the distinctiveness of the two parasite species’ life cycles in the two different aquatic ecosystems.

Published

2020

19. Extraction of Polyhydroxyalkanoates from Purple Non-Sulfur Bacteria by Non-Chlorinated Solvents

Author

Pietro Carlozzi, Patrizia Cinelli, Andrea Mezzetta, Sara Filippi, and Maurizia Seggiani

Subjects

Chloroform, Polymers and Plastics, polyhydroxyalkanoates, Extraction (chemistry), Organic chemistry, Cyclohexanone, purple non-sulfur photosynthetic bacteria, General Chemistry, Extraction, Ionic liquids, Non-chlorinated solvent, Polyhydroxyalkanoates, Purple non-sulfur photosynthetic bacteria, Article, non-chlorinated solvent, ionic liquids, Solvent, Gel permeation chromatography, chemistry.chemical_compound, QD241-441, Differential scanning calorimetry, chemistry, Ionic liquid, extraction, Nuclear chemistry

Abstract

In this study, non-chlorinated solvents such as cyclohexanone (CYC) and three ionic liquids, (ILs) (1-ethyl-3-methylimidazolium dimethylphosphate, [EMIM][DMP], 1-ethyl-3-methylimidazolium diethylphosphate, [EMIM][DEP] and 1-ethyl-3-methylimidazolium methylphosphite, [EMIM][MP]) were tested to extract polyhydroxyalkanoates (PHAs) from the purple non-sulfur photosynthetic bacterium (PNSB) Rhodovulumsulfidophilum DSM-1374. The photosynthetic bacterium was cultured in a new generation photobioreactor with 4 L of working volume using a lactate-rich medium. The extracted PHAs were characterized using a thermogravimetric analysis, differential scanning calorimetry, infrared spectroscopy, proton nuclear magnetic resonance and gel permeation chromatography. The most promising results were obtained with CYC at 125 °C with an extraction time of above 10 min, obtaining extraction yields higher than 95% and a highly pure poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHB-HV) with around 2.7 mol% of hydroxylvalerate (HV). A similar yield and purity were obtained with chloroform (CHL) at 10 °C for 24 h, which was used as the referent solvent Although the three investigated ILs at 60 °C for 4 and 24 h with biomass/IL up to 1/30 (w/w) obtained PHAs strongly contaminated by cellular membrane residues, they were not completely solubilized by the investigated ILs.

Published

2021

20. Glycidyl Azide‐butadiene Block Copolymers: 2 Synthesis from a Mesylated Precursor

Author

Miriam Cappello, Giovanni Polacco, Sara Filippi, and Leonardo Mori

Subjects

Materials science, General Chemical Engineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Hydroxyl-terminated polybutadiene, chemistry, Chemical engineering, Glycidyl azide polymer, Block (telecommunications), Polymer chemistry, Copolymer, Azide, 0210 nano-technology

Abstract

Glycidyl azide-butadiene block copolymers are potential binders for solid propellants. The azidic part contributes to the overall energy outputs, while the butadiene block improves the mechanical properties. Synthetic strategies proposed in literature are not appropriate for production of large-scale quantities. The mesylation of one homopolymer, followed by reaction with the OH terminal groups of the second is proposed here. The reaction is simple and does not show the drawbacks of the previously suggested alternatives. The block copolymers can be used as “partially” energetic binders. Moreover, they work well as compatibilizer in mechanical blends of the two homopolymers, that otherwise rapidly segregate in two distinct phases.

Published

2017

21. Biodegradable microparticles designed to efficiently reach and act on cystic fibrosis mucus barrier

Author

Barbara Messore, Niccoletta Barbani, Caterina Cristallini, Carlo Albera, Chiara Summa, Tania Capeloa, Claudia Giachino, Letizia Ventrelli, Emanuela Vitale, and Sara Filippi

Subjects

Adult, congenital, hereditary, and neonatal diseases and abnormalities, Materials science, N-acetyl cysteine, artificial sputum, Bioengineering, Biocompatible Materials, 02 engineering and technology, Microparticles, 010402 general chemistry, 01 natural sciences, Cystic fibrosis, Biomaterials, chemistry.chemical_compound, Polylactic Acid-Polyglycolic Acid Copolymer, medicine, Humans, Chromatography, High Pressure Liquid, Cell Proliferation, A549 cell, Chromatography, Mucolytic Agent, Mechanical Engineering, Biocompatible polymeric materials, Sputum, 021001 nanoscience & nanotechnology, medicine.disease, Condensed Matter Physics, Mucus, Gellan gum, 0104 chemical sciences, Artificial sputum, Drug delivery systems, N‑acetyl cysteine, A549 Cells, Cystic Fibrosis, Drug Delivery Systems, Materials Science (all), Mechanics of Materials, PLGA, chemistry, Targeted drug delivery, High Pressure Liquid, Biophysics, medicine.symptom, 0210 nano-technology

Abstract

Cystic fibrosis (CF) is a progressive genetic disease caused by mutations in the gene that produces the CF transmembrane conductance regulator (CFTR) protein. The malfunction of the CFTR protein causes a thick buildup of mucus in the lungs that clogs the airways and traps bacteria, thus leading to infections, extensive lung damage and respiratory failure. Micro-delivery systems are currently being investigated as an efficient way to cross the viscous and complex architecture of the CF mucus. In this study, we produced synthetic and natural microparticles (MPs) based on poly(dl‑lactide‑co‑glycolide) (PLGA) or gellan gum through tailored water/oil emulsion procedures. Morphological and physico-chemical characterizations were carried out on both classes of MPs showing particles having diameters within suitable ranges to reach the CF airways. In vitro biocompatibility tests were also performed on both MPs using a human lung cancer cell line (A549) demonstrating that treatment with MPs induces no cytotoxic effects. Both classes of MPs were loaded with a mucolytic agent (N‑acetyl cysteine, NAC) and their release kinetics evaluated using high performance liquid chromatography (HPLC). The analysis pointed out that the amount of NAC released from MPs resulted in a dose-dependent increment, with a rapid release kinetic to satisfy the requirement for inducing an early mucus degradation. Finally, mucolytic action of NAC-loaded MPs was evaluated in an artificial sputum model through its rheological analysis obtaining the lowest viscosity profile after the addition of drug-loaded MPs. Taken together, gained results allowed us to select suitable MPs as potential drug targeting platforms having a mucolytic action for CF treatment.

Published

2019

22. Classification and selection of exhausted oils for rejuvenating bituminous blends

Author

Miriam Cappello, Giovanni Polacco, Giacomo Cuciniello, Sara Filippi, Massimo Losa, Pietro Leandri, and Norma Mallegni

Subjects

Thermogravimetric analysis, Materials science, Rejuvenators, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Compatibility, Aging resistance, Diffusivity, Exhausted oils, RAP, 0201 civil engineering, 021105 building & construction, medicine, General Materials Science, Mineral oil, Civil and Structural Engineering, Biodiesel, Building and Construction, Pulp and paper industry, Vegetable oil, Asphalt, Compatibility (mechanics), medicine.drug

Abstract

The use of rejuvenators (RJ) is critical to increasing the amount of recycled asphalt in new mixtures. However, their usage and classification have not achieved a consistent common practice. One of the properties that lacks a comprehensive investigation is their re-aging tendency. In this work, mineral oil from the automotive industry (MO), a waste domestic cooking vegetable oil (VO), and biodiesel (BD) produced from VO were tested as rejuvenators of a laboratory-aged unmodified binder. Infrared spectroscopy and thermogravimetric analysis were used to gather preliminary information on the single RJs. Then, their compatibility with the aged binder was tested at low and high temperature through contact angle and diffusion tests. Finally, their re-aging tendency was determined by using rheological parameters. The RJs showed adequate compatibility and diffusivity, being the VO slightly better than the others are. All the RJs provided a visible restoration of the initial binder properties. The main differences between the three oils are displayed during the second life cycle of the binder (simulated by aging the rejuvenated binders). In this case, the VO and MO do not provide any relevant concerns, while the BD tendency to evaporate slightly above 120 °C may represent a problem during the production and the paving of the mixture. VO and MO blends showed a good aging resistance and may provide a promising life cycle, with the VO being the recommended RJ.

Published

2021

23. Limiting oxygen index reduction in bitumen modified with nanoclays

Author

Sara Filippi, Giovanni Polacco, and Miriam Cappello

Subjects

040101 forestry, chemistry.chemical_classification, Materials science, General Physics and Astronomy, 020101 civil engineering, 04 agricultural and veterinary sciences, 02 engineering and technology, General Chemistry, Polymer, Combustion, Decomposition, 0201 civil engineering, Limiting oxygen index, Thermogravimetry, Colloid, Viscosity, Chemical engineering, chemistry, Asphalt, Bitumen Flame retardant Nanoclay Limiting oxygen index Thermogravimetry Aluminium hydroxide, 0401 agriculture, forestry, and fisheries, General Materials Science, Safety, Risk, Reliability and Quality

Abstract

Organo-modified nanoclays may improve the fire resistance of polymers and bitumen. However, in some cases the nanoclay determines a reduction in the limiting oxygen index (LOI). In polymers, this effect is attributed to an increase of viscosity that limits the dripping of the molten samples during combustion. However, in the case of bitumen this explanation is not sufficient because the reduction is not always associated to high viscosities. In contrast, the mass losses recorded by thermogravimetry in well-defined temperature regions seems to correlate with LOI. Both viscosity and decomposition kinetic of the binders suggest that the nanoclays establish a high degree of interaction with the bitumen, thus determining a significant re-arrangement of its colloidal structure.

Published

2020

24. An insight into the interaction between functionalized thermoplastic elastomer and layered double hydroxides through rheological investigations

Author

Elisa Passaglia, Serena Coiai, Sara Filippi, Giuseppe Tarantino, Giorgio Nasillo, Rossella Arrigo, Francesca Cicogna, Nadka Tzankova Dintcheva, Delia Francesca Chillura Martino, Arrigo, R., Dintcheva, N., Tarantino, G., Passaglia, E., Coiai, S., Cicogna, F., Filippi, S., Nasillo, G., and Chillura Martino, D.

Subjects

Physical propertie, Polymer-matrix composites (PMCs), Materials science, Ceramics and Composite, 02 engineering and technology, engineering.material, Nano-structure, 010402 general chemistry, 01 natural sciences, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Rheology, Copolymer, Rheological propertie, Mechanics of Material, Rheological properties, Composite material, Thermoplastic elastomer, Nano-structures, Physical properties, Ceramics and Composites, Mechanics of Materials, Mechanical Engineering, Settore CHIM/02 - Chimica Fisica, chemistry.chemical_classification, Nanocomposite, Layered double hydroxides, Maleic anhydride, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, engineering, Hydroxide, 0210 nano-technology

Abstract

Nanocomposites based on maleated poly(styrene-(ethylene-co-butylene)-styrene) copolymer (SEBSgMA) and organo-modified layered double hydroxide (OLDH) have been formulated with the aim to investigate the effects of interfacial interactions between the grafted maleic anhydride groups of the copolymer and the OLDH nanolayers on the rheological properties of nanocomposites. The spectroscopic analysis indicates the establishment of specific polymer/nanofiller interactions, whose extent has been highlighted through morphological and rheological investigations. Specifically, oscillatory melt rheology and shear relaxation tests have been considered in order to deeply investigate the interfacial bridging interactions. Obtained results highlight that SEBSgMA-based nanocomposites containing a high amount of OLDH show solid-like rheological behavior, quite similar to that of crosslinked polymers, attributable to the formation of a gel-like structure.

Published

2018

25. Effect of ageing on the morphology and creep and recovery of polymer-modified bitumens

Author

Sara Filippi, Giacomo Cuciniello, Davide Lo Presti, Gordon Airey, Pietro Leandri, Massimo Losa, Cuciniello, G., Leandri, P., Filippi, S., Lo Presti, D., Losa, M., and Airey, G.

Subjects

Morphology, Styrene-butadiene, Materials science, Percent recovery, 0211 other engineering and technologies, 02 engineering and technology, Elastomer, Plastomer, chemistry.chemical_compound, Rheology, 021105 building & construction, Settore ICAR/04 - Strade, Ferrovie Ed Aeroporti, General Materials Science, Composite material, Polymer-modified bitumen, Civil and Structural Engineering, chemistry.chemical_classification, MSCR, Building and Construction, Polymer, 021001 nanoscience & nanotechnology, Ageing, chemistry, Creep, Mechanics of Materials, Asphalt, Hardening (metallurgy), Polymer-modified bitumen, Ageing, Morphology, Percent recovery, MSCR, 0210 nano-technology

Abstract

Polymer additives are used to improve the properties of road bitumens including their oxidative resistance. However, their usage as anti-oxidative materials remains relatively unclear. This study aims to investigate the changes in the morphology and the rheological response of polymer modified bitumens used in road pavement construction caused by ageing. An elastomer (radial styrene butadiene styrene, SBS) and a plastomer (ethyl vinyl acetate, EVA) polymer were mixed with one base bitumen at three polymer concentrations. The bitumens were RTFO and PAV aged. The morphology of the bitumens was captured by fluorescence microscopy while the rheological properties were measured by means of the multiple stress creep and recovery (MSCR) test. The results show that the morphology of the SBS modified bitumen degrades with ageing as a function of polymer concentration and dispersion, with higher dispersion being more resistant. The morphology of the EVA modified bitumen has a low ageing susceptibility irrespective of polymer concentration. The MSCR response of EVA modified bitumens does not differ from that found for unmodified bitumen, where the hardening produces a decrease in the non-recoverable compliance. In the case of SBS modified bitumen, the degradation of the polymer backbone affects the bitumen hardening as much as the polymer phase dispersed and networked in the bitumen phase. Furthermore, in the case of the elastomer, the average percent recovery is in agreement with the variation of the morphology with ageing. Therefore, the use of the average percent recovery as a valuable rheological index of the integrity of the polymer network can be advocated.

Published

2018

26. Effect of Nanoadditives on Bitumen Aging Resistance: A Critical Review

Author

Manuel Merce, Sara Filippi, Giovanni Polacco, and Miriam Cappello

Subjects

chemistry.chemical_classification, Materials science, Nanocomposite, 0211 other engineering and technologies, Layered double hydroxides, 02 engineering and technology, Polymer, engineering.material, 021001 nanoscience & nanotechnology, Durability, Silicate, Characterization (materials science), chemistry.chemical_compound, Aging resistance, chemistry, Asphalt, 021105 building & construction, lcsh:Technology (General), engineering, lcsh:T1-995, General Materials Science, Composite material, 0210 nano-technology

Abstract

Starting from the eighties, the use of nanoadditives registered an increasing attention in the scientific and patent literature, especially for the case of polymeric nanocomposites. In the last decade, this involved bituminous materials, modified either with nanosized fillers or with polymeric nanocomposites. One of the expected benefits is an increased resistance of the binder to aging. After a short introduction underlining the uncertainties and risks of artefacts in aging tests, a review is given, focusing on the antiaging properties of layered silicates, which are by far the most important nanoadditives for bitumens. Together with layered silicates, other materials such as nanohydrated lime, nanosilica, and layered double hydroxides are mentioned. Preparation and characterization of the binary bitumen/layered silicate and ternary bitumen/layered silicate/polymer systems are described in order to individuate the aspects that influence the antiaging effect. Even if the available literature is quite abundant and unanimously confirms that nanoadditives may improve bitumen durability, there is a lack of studies clarifying the involved mechanisms. As it is for conventional fillers, it seems to be a combination of physical and chemical interactions. Nanoadditives with different chemistries, porosities, and interlayer spacings differently absorb the polar components from the bitumen, thus affecting their predisposition to oxidative aging.

Published

2018

27. Glycidyl Azide-butadiene Block Copolymers: Synthesis from the Homopolymers and a Chain Extender

Author

Sara Filippi, Leonardo Mori, Giovanni Polacco, and Miriam Cappello

Subjects

Materials science, General Chemical Engineering, 02 engineering and technology, Energetic binders, 010402 general chemistry, 01 natural sciences, law.invention, chemistry.chemical_compound, Hydroxyl-terminated polybutadiene, law, Glycidyl azide polymer, Polymer chemistry, Copolymer, Organic chemistry, Extender, General Chemistry, 021001 nanoscience & nanotechnology, Block copolymers, Glycidyl azide polymer, Hydroxyl-terminated polybutadiene, Energetic binders, Block copolymers, Solid propellants, 0104 chemical sciences, Solid propellants, chemistry, Azide, 0210 nano-technology

Published

2017

28. Vulcanization accelerators as alternative to elemental sulfur to produce storage stable SBS modified asphalts

Author

Giovanni Polacco and Sara Filippi

Subjects

chemistry.chemical_classification, Thermogravimetric analysis, Materials science, Mixing (process engineering), Vulcanization, chemistry.chemical_element, Building and Construction, Polymer, Sulfur, law.invention, Effective solution, chemistry, Chemical engineering, law, Asphalt, Organic chemistry, General Materials Science, Thermal stability, Civil and Structural Engineering

Abstract

Storage stability is one of the main problems of polymer modified asphalts and the use of elemental sulfur is probably the most effective solution, even if not free from inconveniences. Here ten commercially available vulcanization accelerators were tested as potential alternative to sulfur and added to asphalts modified with SBS. Mixing asphalt and polymer at 180 °C, out of the 10 products two gave performance comparable to sulfur, while some of the other additives became effective only at mixing temperature of 210 °C and a few did not work at all. A qualitative correlation between the thermal stability and the effectiveness of the additives was attempted through the thermogravimetric analysis.

Published

2014

29. XRD study of intercalation in statically annealed composites of ethylene copolymers and organically modified montmorillonites. 2. One-tailed organoclays

Author

Giovanni Polacco and Sara Filippi

Subjects

chemistry.chemical_classification, Glycidyl methacrylate, Nanocomposite, Materials science, Intercalation (chemistry), Maleic anhydride, Polymer, X-ray diffraction, chemistry.chemical_compound, chemistry, Mechanics of Materials, Polymer chemistry, lcsh:TA401-492, Vinyl acetate, annealing, lcsh:Materials of engineering and construction. Mechanics of materials, General Materials Science, ethylene copolymers, Composite material, Methyl acrylate, one-tailed organoclays, Alkyl, Civil and Structural Engineering

Abstract

Ethylene copolymers with different polar comonomers, such as vinyl acetate, methyl acrylate, glycidyl methacrylate, and maleic anhydride, were used for the preparation of polymer/clay nanocomposites by statically annealing their mechanical mixtures with different commercial or home-made organically modified montmorillonites containing only one long alkyl tail. The nanostructure of the products was monitored by X-ray diffraction, and the dispersion of the silicate particles within the polymer matrix was qualitatively evaluated through microscopic analyses. The effect of the preparation conditions on the structure and the morphology of the composites was also addressed through the characterization of selected samples with similar composition prepared by melt compounding. In agreement with the findings reported in a previous paper for the composites filled with two-tailed organoclays, intercalation of the copolymer chains within the tighter galleries of the one-tailed clays occurs easily, independent of the application of a mechanical stress. However, the shear-driven break-up of the intercalated clay particles into smaller platelets (exfoliation) seems more hindered. A collapse of the organoclay interlayer spacing was only observed clearly for a commercial one-tailed organoclay – Cloisite® 30B – whereas the same effect was almost negligible for a home-made organoclay with similar structure.

Published

2014

30. A model combining structure and properties of a 160/220 bituminous binder modified with polymer/clay nanocomposites. A rheological and morphological study

Author

Giovanni Polacco, Filippo Merusi, Sara Filippi, and Felice Giuliani

Subjects

chemistry.chemical_classification, Nanocomposite, Materials science, Ethylene-vinyl acetate, Building and Construction, Polymer, engineering.material, Viscoelasticity, Polymer clay, chemistry.chemical_compound, Montmorillonite, chemistry, Rheology, Mechanics of Materials, Copolymer, engineering, General Materials Science, Composite material, Civil and Structural Engineering

Abstract

The present contribution focuses on the modification of a 160/220 bituminous binder with clay and polymer/clay nanocomposites. Bitumen/polymer/clay ternary blends were prepared using styrene–butadiene–styrene, ethylene vinyl acetate and ethylene methylacrylate copolymers mixed with an organomodified montmorillonite. Dynamic mechanical analyses were performed in the extended domain of stress, temperature and frequency to analyse the thermorheological behaviour of the blends. The time–temperature superposition principle was applied to shift the experimental data recorded at different temperatures and generate master curves of the linear viscoelastic functions. For all blends, the mechanical response of the system was found to be strongly and intimately influenced by the nanocomposite modification. In some cases, a solid-like behaviour appears and delays the Newtonian transition. Morphological analyses performed with fluorescence microscopy allowed to associate the binder properties with the presence of clay silicates, which alter the colloidal equilibrium of the bitumen and enhances the compatibility between bitumen and polymers. Based on the morphological and rheological results, a structural model of the prepared blends is proposed.

Published

2013

31. Internal structure of bitumen/polymer/wax ternary mixtures for warm mix asphalts

Author

Filippo Merusi, Felice Giuliani, Damiano Rossi, Giovanni Polacco, and Sara Filippi

Subjects

chemistry.chemical_classification, Wax, Materials science, Polymers and Plastics, Maleic anhydride, General Chemistry, Polymer, Surfaces, Coatings and Films, chemistry.chemical_compound, Differential scanning calorimetry, chemistry, Asphalt, visual_art, Phase (matter), Materials Chemistry, visual_art.visual_art_medium, Solubility, Composite material, Ternary operation

Abstract

Polymer modified asphalts (PMA) and warm mix asphalts (WMA) are technologies widely adopted in the paving industry. The first one is well established, while the second one is relatively new, but rapidly growing since it guarantees economic and environmental advantages. Until now PMA and WMA have been used disjointedly, but it would be useful to combine them to keep the advantages of both. One of the adopted solutions to obtain a warm effect is the addition of waxes to the asphaltic binder. Therefore, a “warm mix polymer modified asphalt” may be potentially obtained with a ternary asphalt/polymer/wax system. However, the final warm effect and performances of the binder will depend on the interactions between the three components. A preliminary investigation was done by mixing asphalt, styrene-butadiene-styrene block copolymer and a wax chosen among the following three categories: paraffinic, partially oxidized and maleic anhydride functionalized. The morphological and calorimetric analyses and solubility tests allowed identifying different behaviors depending on the wax type, which may preferentially interact either with the asphalt or with the polymer, thus influencing the whole binder structure. With regard to the ternary mixes, it was found that: (i) the paraffinic wax preferentially resides in the polymer-rich phase, and slightly enhances the asphalt-polymer compatibility; (ii) the partially oxidized wax prefers the asphaltene-rich phase and reduces the compatibility; (iii) it is not clear where the functionalized wax is located, but it has a considerable compatibilizing effect and strongly alters the colloidal equilibrium of the asphalt-polymer blend. © 2013 Wiley Periodicals, Inc. J. Appl. Polym. Sci., 2013

Published

2013

32. XRD study of intercalation in statically annealed composites of ethylene copolymers and organically modified montmorillonites. 1. Two-tailed organoclays

Author

Francesca Baldanzi, Damiano Rossi, Massimo Paci, Sara Filippi, and Giovanni Polacco

Subjects

chemistry.chemical_classification, Glycidyl methacrylate, Nanocomposite, Materials science, General Chemical Engineering, Intercalation (chemistry), Maleic anhydride, General Chemistry, Polymer, chemistry.chemical_compound, chemistry, Vinyl acetate, Organoclay, Composite material, Alkyl

Abstract

Ethylene copolymers with different polar comonomers, such as vinyl acetate, methyl acrylate, glycidyl methacrylate, and maleic anhydride, have been used to prepare polymer/clay nanocomposites by static annealing of their mechanical mixtures with different organoclays containing two long alkyl tails. The nanostructure of the products and the dispersion of the silicate particles have been monitored by X-ray diffraction and microscopic analyses. The effect of the preparation conditions has also been addressed through the characterization of selected samples with similar composition prepared by melt compounding or solution blending. The results show that intercalation of the copolymer chains occurs rapidly within the galleries of most of the investigated organoclays, independent of whether shear stress is applied to the molten mixtures. Solution blending, though leading to effective and uniform dispersion of clay primary particles within the polymer bulk, resulted unable, without subsequent thermal treatments, to lead to intercalation. However, the micron-sized polymer/clay mixtures prepared from solution change even more rapidly into intercalated nanocomposites upon static melting. Most of the polymer/organoclay couples gave thermodynamically stable intercalated/exfoliated structures. Nevertheless, the highest levels of exfoliation, together with excellent dispersion of the clay particles, have been obtained for the nanocomposites prepared by melt compounding from polymer–clay couples with optimal match of polar characteristics.

Published

2013

33. Ignitability and thermal stability of asphalt binders and mastics for flexible pavements in highway tunnels

Author

Giovanni Polacco, Filippo Merusi, Alice Bonati, Felice Giuliani, and Sara Filippi

Subjects

Flammable liquid, chemistry.chemical_classification, Thermogravimetric analysis, Materials science, Base (chemistry), Aluminium hydroxide, Building and Construction, engineering.material, Limiting oxygen index, chemistry.chemical_compound, chemistry, Asphalt, Filler (materials), engineering, General Materials Science, Composite material, Civil and Structural Engineering, Flammability

Abstract

Due to their chemical composition, asphalt binders and mixtures are quite flammable and tend to produce smoke and poisonous gases while burning. Therefore, fire reaction of asphalt pavements is a topic of increasingly interest to improve fire safety in highway tunnels. Different asphalt binders and mastics containing aluminium hydroxide and magnesium hydroxide as inorganic flame retardants (FRs) were analysed through Thermo-Gravimetric Analysis (TGA) and Limiting Oxygen Index (LOI) test. Due to the lack of technical specifications for LOI measurements of asphaltic materials, a specific sample geometry and preparation as well as a testing procedure were developed and applied. The comparison between the two techniques indicated that both thermal stability and flammability are strictly related to asphalt composition. Moreover, the Thermo-Gravimetric test can be preventively used to select the most appropriate FR filler, whose decomposition temperature (together with particle size) is a factor of primary importance. Among the different flame retardants tested, the aluminium hydroxide showed the most important increase in LOI with respect to the unmodified binders. On the contrary, the SBS-modified binder, probably due to the unsaturated nature of the polymeric modifier, showed an increased flammability when compared with the base asphalt binders.

Published

2012

34. Synthesis of GAP and PAMMO Homopolymers from Mesylate Polymeric Precursors

Author

Claudio Mura, Stefania Fruci, Sara Filippi, Giovanni Polacco, Miriam Cappello, and Pietro Lamia

Subjects

energetic binders, GAP, mesylate precursor, PAMMO, Physics and Astronomy (miscellaneous), 010304 chemical physics, Chemistry, Mesylate, Kinetics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Oxetane, 01 natural sciences, chemistry.chemical_compound, Tosyl, 0103 physical sciences, Polymer chemistry, Halogen, Azide, 0210 nano-technology

Abstract

In azidic binders for solid propellants, the N3 functionality is introduced by substitution of a halogen or tosyl group, but recently the mesyl group has been suggested as an alternative. The mesylate group has two advantages, mainly related to its small dimensions and low cost. Poly(glycidyl azide) and poly 3-azidomethyl-3-methyl oxetane were prepared by using both tosylate and mesylate precursors. The azidation kinetics were studied at three different temperatures while keeping all other operating parameters the same. The results confirmed the good potential of the mesylate precursors for the production of azidic binders.

Published

2016

35. Azidated Ether-Butadiene-Ether Block Copolymers as Binders for Solid Propellants

Author

Sara Filippi, Giovanni Polacco, Claudio Mura, Miriam Cappello, and Pietro Lamia

Subjects

chemistry.chemical_classification, Propellant, Materials science, 010304 chemical physics, Physics and Astronomy (miscellaneous), azidic polymers, Ether, 02 engineering and technology, Polymer, solid propellants, 021001 nanoscience & nanotechnology, 01 natural sciences, energetic binders, HTPB, chemistry.chemical_compound, Polybutadiene, Monomer, chemistry, 0103 physical sciences, Polymer chemistry, Copolymer, 0210 nano-technology

Abstract

Polymeric binders for solid propellants are usually based on hydroxyl-terminated polybutadiene (HTPB), which does not contribute to the overall energy output. Azidic polyethers represent an interesting alternative but may have poorer mechanical properties. Polybutadiene–polyether copolymers may combine the advantages of both. Four different ether-butadiene-ether triblock copolymers were prepared and azidated starting from halogenated and/or tosylated monomers using HTPB as initiator. The presence of the butadiene block complicates the azidation step and reduces the storage stability of the azidic polymer. Nevertheless, the procedure allows modifying the binder properties by varying the type and lengths of the energetic blocks.

Published

2016

36. Kerosene-Resistant Asphalt Binders Based on Nonconventional Modification

Author

Felice Giuliani, Sara Filippi, Pietro Moggi, Giovanni Polacco, and Filippo Merusi

Subjects

chemistry.chemical_classification, Kerosene, Wax, Materials science, Waste management, Transportation, Polymer, Jet fuel, Natural rubber, chemistry, Asphalt, visual_art, visual_art.visual_art_medium, Crumb rubber, Solubility, Civil and Structural Engineering

Abstract

The development of bituminous binders with an intrinsic fuel resistance is required to limit pavement damage and maintenance operations in those areas, such as airport systems and industrial areas and filling stations, where the risk of fuel spilling exists. This paper focuses on the study of the interactions between bitumen and fuel to attain a composition of modified binders with enhanced fuel resistance. Several different modifiers, including polymeric materials, recycled crumb rubber, and synthetic waxes, were added to a base bitumen. All blends were studied with special reference to their chemical composition and subjected to a solubility test consisting of a controlled immersion in kerosene (jet fuel A-1). The results were interpreted on the basis of the compositional characteristics which determine the interactions occurring between bitumen and modifiers. Among the formulations with enhanced fuel resistance, those based on synthetic waxes appeared to be the most interesting ones.

Published

2011

37. Characterization of HDPE-g-MA/clay nanocomposites prepared by different preparation procedures: Effect of the filler dimension on crystallization, microhardness and flammability

Author

Sara Filippi and Liliya Minkova

Subjects

Nanocomposite, Materials science, Polymers and Plastics, Organic Chemistry, Intercalation (chemistry), Composite number, law.invention, Limiting oxygen index, Differential scanning calorimetry, law, Organoclay, High-density polyethylene, Crystallization, Composite material

Abstract

Nanocomposites of maleic anhydride-grafted HDPE (HDMA) and the organoclay Cloisite 20A (20A) have been prepared by melt-compounding, solution-blending and static annealing of polymer/clay powder mixtures. It has been shown that solution-blending of HDMA with 20A fails to produce intercalated composites. Fast intercalation was observed when solution-blending HDMA/clay composites were annealed. The nanocomposites prepared in the melt under shear were found to possess high levels of exfoliation. The dependence of the crystallization behaviour, microhardness and flammability of the composites on the preparation conditions has been studied by differential scanning calorimetry, microhardness tests and determination of limiting oxygen index. The results have shown that the reduction of the flammability and the microhardness of HDMA/20A nanocomposites prepared by melt compounding and composite annealing are higher than those for composites prepared by solution blending. Moreover, a nucleation effect of the clay on the polymer matrix crystallization for some samples has been observed. The results have been interpreted by different levels of clay dispersion and degree of clay intercalation/exfoliation, achieved during different preparation procedures.

Published

2011

38. Polymer–Clay Nanocomposites Based on Blends of Various Types of Polyethylenes and PE-g-MA: Morphology, Thermal Properties, Microhardness, and Transparency

Author

Sara Filippi and Liliya Minkova

Subjects

Nanocomposite, Materials science, Polymers and Plastics, Intercalation (chemistry), General Chemistry, Polyethylene, engineering.material, Condensed Matter Physics, Exfoliation joint, Polymer clay, chemistry.chemical_compound, Montmorillonite, chemistry, Materials Chemistry, engineering, Organoclay, Polymer blend, Composite material

Abstract

Polymer–clay nanocomposites have been prepared by melt blending of commercial organoclay Cloisite 15A with blends of polyethylenes (PE) and maleic-anhydride-grafted PE (PE/PE-g-MA) with wide range of composition. Three types of PE/PE-g-MA blends with different molecular structure, namely blends of high-density PE (HD) with HD-g-MA (HDMA), blends of low-density PE (LD) with LD-g-MA (LDMA), and blends of linear low-density PE (LL) with LL-g-MA (LLMA) were used. The influence of the molecular structure of the PE matrixes and the compatibility between the blend components on the morphology of the nanocomposites was studied. The thermal properties, microhardness, and transparency of the nanocomposites were investigated. The influence of the degree of exfoliation/intercalation on the materials characteristics is discussed.

Published

2010

39. Rheology of bitumen modified by EVA-Organoclay nanocomposites

Author

Giovanni Polacco, Subramanian Sureshkumar Markanday, Igor B. Kazatchkov, Sara Filippi, Ludovit Zanzotto, and Jiri Stastna

Subjects

Nanocomposite, Materials science, Polymers and Plastics, Mixing (process engineering), Concentration effect, General Chemistry, Viscoelasticity, Surfaces, Coatings and Films, chemistry.chemical_compound, Rheology, Creep, chemistry, Materials Chemistry, Vinyl acetate, Organoclay, Composite material

Abstract

Ternary systems, bitumen/ethylene-vinyl acetate (EVA)/organoclay, were prepared by two mixing methods (physical mixing and melt blending) and then studied in small amplitude oscillations, start-up of shear flow and repeated creep and recovery tests. The effect of mixing method and the role of two organoclays on the rheological properties of the studied systems were investigated. Improved thermomechanical properties of bitumen/EVA/organoclay nanocomposites, prepared by melt blending, were demonstrated by the low accumulated strain/compliance in the repeated creep and recovery tests. Structural differences between the studied systems were reflected in the behavior of the dynamic phase angle, specifically in the shape of the derivative of phase angle w.r.t. the reduced frequency. Similarly, the structural differences between the prepared nanocomposites were reflected by the behavior of the stress growth function η+ in the transient experiments. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010

Published

2010

40. Internal structure and linear viscoelastic properties of EVA/asphalt nanocomposites

Author

M. S. Sureshkumar, Jiri Stastna, Sara Filippi, Ludovit Zanzotto, Giovanni Polacco, and Igor B. Kazatchkov

Subjects

chemistry.chemical_classification, Materials science, Nanocomposite, Polymers and Plastics, Organic Chemistry, General Physics and Astronomy, Polymer, Viscoelasticity, chemistry.chemical_compound, Montmorillonite, chemistry, Rheology, Asphalt, Materials Chemistry, Composite material, Ternary operation, Dispersion (chemistry)

Abstract

The effect of the addition of two different organoclays as a third component in polymer-modified asphalts has been investigated. Ternary mixtures were prepared by adding clay and poly(ethylene-co-vinyl acetate) to the asphalt, either separately, or in the form of a premixed master batch. The performed characterizations allowed the determination of how the two methods of mixing influence the interactions between asphalt and polymer and therefore the final rheological properties. In particular, it was shown that the clay had a compatibilizing effect on asphalt and polymer and that a high compatibility between clay and polymer led to a better dispersion of the polymer in the asphalt, thus influencing the final rheological properties of the studied systems.

Published

2010

41. Morphology, microhardness, and flammability of compatibilized polyethylene/clay nanocomposites

Author

Y. Peneva, I. Anguillesi, Liliya Minkova, Mariano Pracella, M. Valcheva, Sara Filippi, and Pierluigi Magagnini

Subjects

Nanocomposite, Materials science, Polymers and Plastics, Concentration effect, Thermal stability, General Chemistry, Polyethylene, Methacrylate, HDPE/clay, Nanocomposites, Low-density polyethylene, chemistry.chemical_compound, Flammability, chemistry, Microhardness, Materials Chemistry, Organoclay, High-density polyethylene, Composite material, Fire retardant

Abstract

Morphology, thermal properties, and microhardness of ethylene-glycidyl methacrylate copolymer (EGMA)/clay and ethylene-acrylic ester-glycidyl methacrylate terpolymer (EAGMA)/clay nanocomposites with different clay concentrations have been studied. The results have shown that EGMA and EAGMA are highly compatible with the organoclays Cloisite ® 20A (Cl20A) and Cloisite ® 30B (Cl30B). Intercalated structures are formed in the whole range of Cl20A loadings investigated, whereas partial degradation of the Cl30B organoclay was observed. The thermal characteristics and microhardness of EGMA/clay nanocomposites suggest that the filler dispersion deteriorates at high concentration. The concentrated EGMA/Cl20A nanocomposites have been used as masterbatches to prepare ternary high density polyethylene (HDPE)/Cl20A and low density polyethylene (LDPE)/Cl20A nanocomposites. Diffractometric characterization and scanning electron microscopy observations of these materials have shown that the intercalated structure of the starting EGMA/Cl20A masterbatches is preserved after dilution with the polyolefins. The results suggest that the silicate platelets remain localized within the EGMA droplets in the diluted nanocomposites. The latter display improved microhardness, whereas the mechanical properties, including elongation at break, are comparable with those of the neat polyolefins. Considerable enhancement of the flame retardant properties has been observed for the ternary nanocomposites. P O LYM . ENG. SCI., 50:1306-1314, 2010. © 2010 Society of Plastics Engineers.

Published

2010

42. Rheological properties of asphalt/SBS/clay blends

Author

Giovanni Polacco, Pavel Kříž, Dario Biondi, Sara Filippi, Ludovit Zanzotto, and Jiri Stastna

Subjects

chemistry.chemical_classification, Materials science, Nanocomposite, Polymers and Plastics, Organic Chemistry, Mixing (process engineering), General Physics and Astronomy, Polymer, Viscoelasticity, chemistry.chemical_compound, Montmorillonite, chemistry, Rheology, Asphalt, Materials Chemistry, Composite material, Glass transition

Abstract

The effect of the addition of clay as a third component in polymer modified asphalts has been investigated. After a preliminary investigation on the binary asphalt/clay and polymer/clay blends, the tertiary blends were prepared by adding the clay and polymer to the asphalt, either separately or in the form of a premixed master batch. Intercalated nanocomposites with comparable interlayer distances and glass transition temperatures were obtained in both cases. However, the results show that the mixing procedure significantly affected the final rheological properties. The master curves built in the linear viscoelastic range and represented in both the frequency and the temperature domains help to visualize and evaluate such differences.

Published

2008

43. Kinetics of non-isothermal degradation of nanocomposites based on functionalized polyethylenes

Author

Liliya Minkova, Sara Filippi, C. Marazzato, E. Lefterova, and Y. Peneva

Subjects

Thermogravimetric analysis, Materials science, Nanocomposite, Polymers and Plastics, Organic Chemistry, Maleic anhydride, Thermogravimetry, chemistry.chemical_compound, Chemical engineering, chemistry, Organoclay, Thermal stability, Polymer blend, High-density polyethylene, Composite material

Abstract

Polymer/organoclay nanocomposites based on an ethylene–acrylic acid copolymer (EAA), a high-density polyethylene (HDPE) grafted with maleic anhydride (HDMA) and HDPE/HDMA blends with 80/20 and 50/50 wt/wt composition have been studied by thermogravimetry in nitrogen and air atmospheres. The following parameters have been determined from the thermogravimetric (TG) and differential thermogravimetric (DTG) curves of the samples: T10, T50, Tmax, the degree of conversion at 450 °C and the residue. The study of the non-isothermal degradation kinetics of the neat polymers and their nanocomposites has allowed the determination of the activation energy of degradation, the rate of degradation and the reaction order. The analysis of all parameters has led to the conclusion that in the presence of clay, the thermal stability in nitrogen atmosphere decreases, while the thermal stability in air increases. Moreover, the effect of clay on the degradation behavior of the polymer matrix is more pronounced for the nanocomposites having fully exfoliated structure than that of the nanocomposites containing intercalated clay stacks. The results have been interpreted by the better dispersion of the clay layers in the exfoliated nanocomposites, leading to a better barrier effect for the oxygen flow in air and to an increase in the number of clay catalytic sites in nitrogen.

Published

2007

44. Comparison of solution-blending and melt-intercalation for the preparation of poly(ethylene-co-acrylic acid)/organoclay nanocomposites

Author

Pierluigi Magagnini, C. Marazzato, Sara Filippi, and Elena Mameli

Subjects

chemistry.chemical_classification, Nanocomposite, Materials science, Polymers and Plastics, Organic Chemistry, Intercalation (chemistry), General Physics and Astronomy, Polymer, chemistry.chemical_compound, Montmorillonite, Chemical engineering, chemistry, Polymer chemistry, Materials Chemistry, Melting point, Organoclay, Ionomer, Acrylic acid

Abstract

Ethylene–acrylic acid copolymers (EAAs) and commercial montmorillonite clays organically modified with dimethyldihydrogenatedtallowammonium ions (Cloisite ® 15A and 20A) were used for the synthesis of nanocomposites by melt-compounding, static melting of polymer/clay mixtures and solution-intercalation in order to compare the effectiveness of these procedures and to shed light on the thermodynamics and the kinetics of the intercalation process. The preparation from solution was made by the use of several solvents, such as toluene, xylene, chloroform, etc., which were then removed from the hybrids by precipitation in different non-solvents or by evaporation. Particular attention was paid to the effect of the thermal treatments which are often used when processing the composites prepared from solution. X-ray diffraction (XRD) of the solution-blended composites showed that no intercalation of the EAAs inside the clay galleries can be achieved if solvent removal is made by precipitation in non-solvents or by room-temperature evaporation. On the contrary, intercalation was found to occur very rapidly (in less than 1 min) when both the hybrids prepared from solution and the mechanical blends of powdered components were melted in the absence of shear. Polymer intercalation was also found to occur, though with a lower rate, upon annealing the powder mixtures at temperatures lower than the EAA melting point. Microscopic observations made by polarized optical microscopy, scanning electron microscopy and transmission electron microscopy showed that the clay particles dispersion is appreciably lower for the composites prepared from solution, compared to those produced in the melt under shear flow conditions. The hybrids obtained by static melting of powder mixtures, on the other side, were expectedly found to comprise micron sized clay agglomerates, although intercalation was demonstrated also for these materials by XRD. The structure of the intercalated silicate layers stacks, characterized by an interlayer spacing of 4.0 nm, was shown to be independent of the preparation procedure and to correspond to thermodynamic equilibrium.

Published

2007

45. Clay‐induced Preferred Orientation in Polyethylene/Compatibilized Clay Nanocomposites

Author

Pierluigi Magagnini, C. Marazzato, Stefano Valdo Meille, Liliya Minkova, and Antonino Famulari, Paolo Arosio, and Sara Filippi

Subjects

Materials science, Nanocomposite, Polymers and Plastics, Small-angle X-ray scattering, Concentration effect, General Chemistry, Polyethylene, Condensed Matter Physics, Exfoliation joint, chemistry.chemical_compound, Montmorillonite, chemistry, Polymer chemistry, Materials Chemistry, High-density polyethylene, Crystallite, Composite material

Abstract

Nanocomposites of the organically modified clay Cloisite® 15A (CL15A) dispersed in HDPE‐g‐MA were prepared by melt‐compounding. Microcomposites of the same clay with HDPE were also obtained with similar procedures. The spherulitic morphology of the polymer matrix was evidenced by optical microscopy in thin films, whereas the structure of the up to 2‐mm–thick, compression‐molded samples was investigated by WAXD and SAXS. Preferred orientation of both the clay and the HDPE crystallites were evidenced in the microcomposites and, to a greater extent, in nanocomposites, whereas in HDPE and HDPE‐g‐MA control specimens hardly any anisotropy was detected. The degree of orientation of PE crystals increases with CL15A concentration, but also with clay exfoliation, with lower cooling rates and decreasing sample thickness. The orientation of the clay platelets parallel to the compression‐molded surface appears to be determined by the platelets anisotropy and by shear in the mixing and the compression‐molding procedur...

Published

2007

46. A review of the fundamentals of polymer-modified asphalts: Asphalt/polymer interactions and principles of compatibility

Author

George Stastna, Giovanni Polacco, Filippo Merusi, and Sara Filippi

Subjects

Polymer modified, chemistry.chemical_classification, Polymer nanocomposite, Chemistry, business.industry, Patent literature, Nanotechnology, Polymer, Surfaces and Interfaces, Nanocomposite-modified asphalts, Phase morphology, Colloid and Surface Chemistry, Asphalt, Internal structure, Polymer-modified asphalts, Storage stability, Physical and Theoretical Chemistry, Road networks, Compatibility (mechanics), Traffic speed, Process engineering, business

Abstract

During the last decades, the number of vehicles per citizen as well as the traffic speed and load has dramatically increased. This sudden and somehow unplanned overloading has strongly shortened the life of pavements and increased its cost of maintenance and risks to users. In order to limit the deterioration of road networks, it is necessary to improve the quality and performance of pavements, which was achieved through the addition of a polymer to the bituminous binder. Since their introduction, polymer-modified asphalts have gained in importance during the second half of the twentieth century, and they now play a fundamental role in the field of road paving. With high-temperature and high-shear mixing with asphalt, the polymer incorporates asphalt molecules, thereby forming a swallowed network that involves the entire binder and results in a significant improvement of the viscoelastic properties in comparison with those of the unmodified binder. Such a process encounters the well-known difficulties related to the poor solubility of polymers, which limits the number of macromolecules able to not only form such a structure but also maintain it during high-temperature storage in static conditions, which may be necessary before laying the binder. Therefore, polymer-modified asphalts have been the subject of numerous studies aimed to understand and optimize their structure and storage stability, which gradually attracted polymer scientists into this field that was initially explored by civil engineers. The analytical techniques of polymer science have been applied to polymer-modified asphalts, which resulted in a good understanding of their internal structure. Nevertheless, the complexity and variability of asphalt composition rendered it nearly impossible to generalize the results and univocally predict the properties of a given polymer/asphalt pair. The aim of this paper is to review these aspects of polymer-modified asphalts. Together with a brief description of the specification and techniques proposed to quantify the storage stability, state-of-the-art knowledge about the internal structure and morphology of polymer-modified asphalts is presented. Moreover, the chemical, physical, and processing solutions suggested in the scientific and patent literature to improve storage stability are extensively discussed, with particular attention to an emerging class of asphalt binders in which the technologies of polymer-modified asphalts and polymer nanocomposites are combined. These polymer-modified asphalt nanocomposites have been introduced less than ten years ago and still do not meet the requirements of industrial practice, but they may constitute a solution for both the performance and storage requirements.

Published

2015

47. Recycling of inside upholstery of end-of-life cars

Author

A. Correnti, Giovanni Polacco, M. Bocchino, F. P. La Mantia, Sara Filippi, Pier Luigi Magagnini, A CORRENTI, M BOCCHINO, S FILIPPI, PL MAGAGNINI, G POLACCO, and LA MANTIA FP

Subjects

Polypropylene, Materials science, Polymers and Plastics, Maleic anhydride, General Chemistry, Epoxy, Compatibilization, Polyethylene, Surfaces, Coatings and Films, Polyolefin, chemistry.chemical_compound, chemistry, visual_art, Materials Chemistry, visual_art.visual_art_medium, Polymer blend, Composite material, Thermoplastic elastomer

Abstract

A model study for the recycling of the interior upholstery plastic parts of end-of-life cars has been carried out by reprocessing the homogenized scraps of an upholstery farm in the presence of different compatibilizer precursors, such as an ethylene-glycidylmethacrylate copolymer (EGMA), a maleic anhydride functionalized thermoplastic elastomer (SEBS-MA), etc. The investigated scraps contained recycled polyethylene (from agricultural uses) and poly(ethylene terephthalate), as the main components, plus minor proportions of polypropylene, polyamide-6, and other additives, including an ethylene copolymer (EC), probably an ethylene-acrylic acid copolymer, which is used to compatibilize the carpets' backing and increase their flexibility. The reactive blending experiments were carried out using a Brabender Plasticorder static mixer and a Brabender twin-screw compounder, and the products were characterized by rheometry, differential scanning calorimetry, scanning electron microscopy, stress–strain measurements, etc. It was shown that EGMA was most effective for the reactive compatibilization of the polyolefin and poly(ethylene terephthalate) components of the scraps. It was also found, however, that the EC contained in the upholstery backing neutralizes in part the functional epoxy groups of EGMA, thus reducing its compatibilizing efficiency. The results suggest that substitution of EC with an inert flexibilizing agent, such as an ethylene-propylene copolymer, and use of small amounts (∼ 5%) of an EGMA compatibilizer, might allow recycling of used upholstery into injection moldable plastic articles. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 96: 1716–1728, 2005

Published

2005

48. Reactive Compatibilizer Precursors for LDPE/PA6 Blends, 4

Author

Marco Talarico, Giovanni Polacco, Liliya Minkova, Sara Filippi, and Hristo Yordanov

Subjects

Low-density polyethylene, Materials science, Morphology (linguistics), Polymers and Plastics, General Chemical Engineering, Organic Chemistry, Materials Chemistry, Reactive compatibilization, Composite material

Published

2004

49. Reactive compatibilizer precursors for LDPE/PA6 blends, 1

Author

Pierluigi Magagnini, Massimo Paci, Sara Filippi, Valeria Chiono, Liliya Minkova, and Giovanni Polacco

Subjects

Ethylene, Polymers and Plastics, Organic Chemistry, Compatibilization, Polyethylene, Condensed Matter Physics, Low-density polyethylene, chemistry.chemical_compound, chemistry, Polymer chemistry, Materials Chemistry, Copolymer, Polymer blend, Physical and Theoretical Chemistry, Ionomer, Acrylic acid

Abstract

Ethylene/acrylic acid copolymers (EAA) with different acrylic acid (AA) contents have been used as compatibilizer precursors (CPs) for blends of two grades of lowdensity polyethylene (LDPE) with polyamide-6 (PA). In the first part of the work, binary blends of the CPs with LDPE and with PA have been studied in order to get an insight into the interactions of the EAA copolymers with the blends components. It has been shown that the CPs form immiscible, yet highly compatible, blends with LDPE. Investigation of the binary CP/PA blends provided evidence that acidolysis reactions occur between the carboxyl groups of the CPs and the amine and amide groups of PA, with formation of CP/PA graft (CP-g-PA) copolymers, although these reactions need relatively long times to go to completion. In the second part of the work, ternary LDPE/PA/CP blends have been prepared and characterized with a number of techniques. It has been shown that the addition of only 1-2 phr of CP into the LDPE/ PA blends is sufficient to enhance interfacial adhesion, to improve the minor phase droplet dispersion and to hinder coalescence. The effectiveness of the investigated CPs increases with an increase of the AA content from 6 to 11 wt.-%. Partial neutralization of the carboxyl groups of EAA with zinc also seems to improve the CP efficiency and this effect is thought to result from an acceleration of the acidolysis reactions responsible for the formation of CP-g-PA copolymers.

Published

2002

50. Characterization of blends of LDPE and PA6 with functionalized polyethylenes

Author

Hr. Yordanov, Liliya Minkova, and Sara Filippi

Subjects

chemistry.chemical_classification, Materials science, Polymers and Plastics, Organic Chemistry, Concentration effect, Polymer, Compatibilization, law.invention, chemistry.chemical_compound, Crystallinity, Low-density polyethylene, chemistry, law, Polyamide, Materials Chemistry, Polymer blend, Crystallization, Composite material

Abstract

Blends of low density polyethylene (LDPE) or polyamide 6 (PA6) with two types of functionalized polyethylenes compatibilizers, namely: poly(ethylene- co -acrylic acid) (Escor5001 by Exxon) and ethylene–glycidylmethacrylate copolymer (Lotader GMA AX8840) in the LDPE/compatibilizer or PA6/compatibilizer composition 80/20 w/w, have been prepared. The morphology, crystal structure, isothermal crystallization behavior and microhardness of the blends have been studied by optical and electron microscopy, DSC, WAXS and microhardness tests. The peculiarities in the new characteristics of the blends investigated have been revealed. The isothermal crystallization rate of both LDPE and PA6 decreases in the presence of the two types of compatibilizers. The crystallization enthalpy only of the LDPE blends is a function of the crystallization temperature. In the presence of the compatibilizer, PA6 or LDPE crystallize into spherulites with dimensions smaller than those of the corresponding neat polymers. The crystallites dimensions and degree of crystallinity do not change in LDPE/compatibilizer blends, while there are strong reductions of the degree of crystallinity and the crystallites dimensions of the components in the PA6/compatibilizer blends if compared to those of the neat polymers. The microhardness values of the PA6/compatibilizer blends are lower than the corresponding additive values, while the microhardness of LDPE/compatibilizer blends corresponds to the additive values. The results have been interpreted by different types of interactions between the functionalized polyethylenes and LDPE or PA6, correspondingly. The results indicate that the compatibilization efficiency of Escor towards PA6 is higher than that of Lotader.

Published

2002