Your search keyword '"Ion, Ioana"' showing total 10 results

1. Composites from Recycled Polypropylene and Carboxymethylcellulose with Potential Uses in the Interior Design of Vehicles.

Author

Caramitu, Alina Ruxandra, Ciobanu, Romeo Cristian, Ion, Ioana, Marin, Mihai, Lungulescu, Eduard-Marius, Marinescu, Virgil, Aflori, Magdalena, and Bors, Adriana Mariana

Subjects

POLYMERIC composites, CARBOXYMETHYLCELLULOSE, AUTOMOTIVE materials, COMPOSITE structures, INJECTION molding

Abstract

This research investigates novel polymeric composite materials for automotive interior trim applications. The composites utilize recycled polypropylene (PPr) matrix and carboxymethylcellulose (CMC) as filler (PPr/CMC: 100/0, 95/5, and 90/10 wt.%). The materials were processed by extrusion and injection molding. Considering their intended application, the composites were evaluated for resistance to key climatic factors, i.e., temperature, humidity, and UV radiation. In addition, structural analyses and FTIR analyses were performed to assess potential heterogeneity and thermal stability. Following FTIR tests, the incorporation of carboxymethyl cellulose in polypropylene is confirmed by the detection of characteristic CMC bands for -OH, C=O, and C-O-C groups. The results indicate slight structural heterogeneity in the 5% and 10% CMC composites. However, no thermal distortions were observed in either the composites or the PPr matrix itself. The behavior of PPr/CMC composites under the action of the mentioned climatic factors has been assessed from the variation of dielectric characteristics with frequency. The strong polarization of CMC leads to a sharp increase in composites electrical conductivity after submersion in water for 480 h, suggesting weakening of the composite structure. After exposure to UV radiation, a sharp increase in conductivity is observed even after the first cycle (72 h) of UV radiation. Following the experimental results obtained in our study, it is recommended to use the PPr +10% CMC composite for obtaining different interior ornaments (carpets, supports, etc.). At the same time, the use of these materials also has the advantage of lightening the mass of the vehicle due to their lower density than polymers. [ABSTRACT FROM AUTHOR]

Published

2024

2. Composite Paints with High Content of Metallic Microparticles for Electromagnetic Shielding Purposes.

Author

Ciobanu, Romeo Cristian, Aradoaei, Mihaela, Caramitu, Alina Ruxandra, Lungu, Magdalena Valentina, Schreiner, Oliver Daniel, and Ion, Ioana

Subjects

PAINT materials, ELECTROMAGNETIC shielding, SUBSTRATES (Materials science), DIELECTRIC loss, ELECTROMAGNETIC compatibility

Abstract

This paper describes the technological process used to manufacture composite paints with a high content of metallic microparticles (Al and Fe) for automotive electromagnetic compatibility applications. The thickness of the deposited paint layer was larger for paints with a greater metal content, regardless of the plastic support used for paint deposition. The roughness of paint layers with a greater content of metal particles was about 30%–35% higher than that of layers with a lower metal particle content, regardless of the metal type. The surface roughness of paint layers containing Al was at least 2.5-times higher than that of paint layers containing Fe, an aspect that could be explained by the better formulation of the paint containing Fe. The dielectric loss and conductivity values crucially depend on the plastic substrate used, meaning that the dipolar polarization of the substrate enhances the effect of conductive paints. Based on the dielectric properties measured at 10 kHz, the optimal recipe for efficient electromagnetic compatibility was found to be 20 wt.% Fe powder, deposited on a sandblasted polycarbonate (PC) substrate. It is expected that formulations of paints with a high percentage of metallic particles will effectively compete with traditional plastic metallization technologies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Recycled Polypropylene/Strontium Ferrite Polymer Composite Materials with Electromagnetic Shielding Properties.

Author

Caramitu, Alina Ruxandra, Lungu, Magdalena Valentina, Ciobanu, Romeo Cristian, Ion, Ioana, Marin, Mihai, Marinescu, Virgil, Pintea, Jana, Aradoaei, Sebastian, and Schreiner, Oliver Daniel

Subjects

STRONTIUM ferrite, ELECTROMAGNETIC shielding, REFLECTIVE materials, MAGNETIC permeability, POLYPROPYLENE, COMPOSITE materials, POLYMERS, NICKEL ferrite

Abstract

This paper presents the obtaining and characterization of recycled polypropylene/strontium ferrite (PP/SrFe12O19) polymer composite materials with applications in the electromagnetic shielding of vehicle interiors (mainly automotive electronics—carcasses) from the electromagnetic radiation emitted mainly by exterior sources—electrical lines and supply sources—in terms of the development of the new electrical vehicles. With this aim, suitable polymer composite materials were developed using SrFe12O19 filler in two forms (powder and concentrate). The recycled PP polymer and composite materials with a PP/SrFe12O19 weight ratio of 75/25 and 70/30 were obtained in two stages, i.e., pellets by extrusion and samples for testing through a melt injection process. The characterization of the obtained materials took into account the requirements imposed by the desired applications. It consisted of determining the mechanical and dielectric properties, and microstructure analyses, along with the determination of the resistance to the action of a temperature of 70 °C, which is higher than the temperatures created during the summer inside vehicles. The performance of these materials as electromagnetic shields was assessed through functional tests consisting of the determination of magnetic permeability and the estimation of the electromagnetic shielding efficiency (SE). The obtained results confirmed the improvement of the mechanical, dielectric, and magnetic properties of the PP/SrFe12O19 composites compared to the selected PP polymers. It is also found that all the composite materials exhibited reflective shielding properties (SER from −71.5 dB to −56.7 dB), with very little absorption shielding. The most performant material was the composite made of PP/SrFe12O19 powder with a weight ratio of 70/30. The promising results recommend this composite material for potential use in automotive shielding applications against electromagnetic pollution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Sustainable Geopolymer Structural Insulation Panels Obtained with the Addition of Power Plant Ash and Furnace Slag with Potential Uses in the Fabrication of Specialized Structures.

Author

Ciobanu, Romeo C., Schreiner, Cristina, Caramitu, Alina R., and Ion, Ioana

Abstract

The paper describes the process of obtaining geopolymer composites using raw materials from critical waste, i.e., mixed power plant ash and furnace slag powder. Using such geopolymer composites, structural insulation panels were made in the laboratory, which were subjected to tests specific to construction applications. At the same time, some special properties, such as sound insulation and electromagnetic shielding properties for special applications, were tested. The results obtained from the functional tests led to the conclusion that the panels made of geopolymer composites provided both sound and electromagnetic attenuation values clearly superior to those obtained from autoclaved cellular concrete, brick, or concrete structures, which encourages us to suggest such material concepts for complex shielding purposes. The sustainability of the technology for producing such geopolymer composites was fully demonstrated from the economic, environmental, and social perspectives. [ABSTRACT FROM AUTHOR]

Published

2024

5. Special Packaging Materials from Recycled PET and Metallic Nano-Powders.

Author

Ciobanu, Romeo C., Aradoaei, Mihaela, Caramitu, Alina R., Ion, Ioana, Schreiner, Cristina M., Tsakiris, Violeta, Marinescu, Virgil, Hitruc, Elena Gabriela, and Aflori, Magdalena

Subjects

PACKAGING materials, FOURIER transform infrared spectroscopy, POLYETHYLENE terephthalate, PLASTICS in packaging, SCANNING electron microscopes, CIRCULAR economy

Abstract

The European methodology for plastics, as a feature of the EU's circular economy activity plan, ought to support the decrease in plastic waste. The improvement of recycled plastics' economics and quality is one important part of this action plan. Additionally, achieving the requirement that all plastic packaging sold in the EU by 2030 be recyclable or reusable is an important objective. This means that food packaging materials should be recycled in a closed loop at the end. One of the most significant engineering polymers is polyethylene terephthalate (PET), which is widely used. Due to its numerous crucial qualities, it has a wide variety of applications, from packaging to fibers. The thermoplastic polyolefin, primarily polyethylene and polypropylene (PP), is a popular choice utilized globally in a wide range of applications. In the first phase of the current experiment, the materials were obtained by hot pressing with the press machine. The reinforcer is made of Al nanopowder 800 nm and Fe nanopowder 790 nm and the quality of the recycled polymer was examined using Fourier transform infrared spectroscopy (FTIR), a scanning electron microscope (SEM), and differential scanning calorimetry (DSC). From DSC variation curves as a function of temperature, the values from the transformation processes (glass transition, crystallization, and melting) are obtained. SEM measurements revealed that the polymer composites with Al have smooth spherical particles while the ones with Fe have bigger rough spherical particles. [ABSTRACT FROM AUTHOR]

Published

2023

6. Flexible Electromagnetic Shielding Nano-Composites Based on Silicon and NiFe 2 O 4 Powders.

Author

Caramitu, Alina R., Ciobanu, Romeo C., Ion, Ioana, Schreiner, Cristina M., Aradoaei, Mihaela, Tsakiris, Violeta, Pintea, Jana, and Marinescu, Virgil

Subjects

ELECTROMAGNETIC shielding, MAGNETIC permeability, ELECTROMAGNETIC wave scattering, POWDERS, ELECTROMAGNETIC testing, COMPOSITE materials, HYDROSTATIC extrusion

Abstract

In this paper, the obtaining and characterization of five experimental models of novel polymer composite materials with ferrite nano-powder are presented. The composites were obtained by mechanically mixing two components and pressing the obtained mixture on a hot plate press. The ferrite powders were obtained by an innovative economic co-precipitation route. The characterization of these composites consisted of physical and thermal properties: hydrostatic density, scanning electron microscopy (SEM), and TG DSC thermal analyses, along with functional electromagnetic tests in order to demonstrate the functionality of these materials as electromagnetic shields (magnetic permeability, dielectric characteristics, and shielding effectiveness). The purpose of this work was to obtain a flexible composite material, applicable to any type of architecture for the electrical and automotive industry, necessary for protection against electromagnetic interference. The results demonstrated the efficiency of such materials at lower frequencies, but also in the microwave domain, with higher thermal stability and lifetime. [ABSTRACT FROM AUTHOR]

Published

2023

7. Synthesis of Silver Nanoparticles Embedded in Micro-Hydrogel Particles by Electron Beam Irradiation

Author

Ion, Ioana, primary, Stancu, Elena, additional, Mitu, Ciprian Mihai, additional, Marinescu, Virgil, additional, Lungulescu, Eduard Marius, additional, and Nicula, Nicoleta Oana, additional

Published

2022

8. A Comparative Study of Polypyrrole and Ag/Polypyrrole Hybrid Nanocomposites as Sensitive Material Used for New Dry Polarizable Bioimpedance Sensors.

Author

Telipan, Gabriela, Pîslaru-Dănescu, Lucian, Lungulescu, Eduard-Marius, Ion, Ioana, Marinescu, Virgil, and Gonzalez-Gutierrez, Joamin

Subjects

NANOCOMPOSITE materials, POLYPYRROLE, COLLOIDS, DETECTORS, SCANNING electron microscopy, X-ray spectroscopy

Abstract

Featured Application: Authors are encouraged to provide a concise description of the specific application or a potential application of the work. This section is not mandatory. Three types of dry polarizable electric bioimpedance sensor for skin bioimpedance monitoring without skin preparation have been developed. The sensitive materials as a component of these sensors are the conductive polypyrrole and hybrid nanocomposite polypyrrole-Ag, with 10% and 20% Ag incorporated in the polypyrrole matrix. The hybrid nanocomposites Ag nanoparticles (NPs)/polypyrrole were obtained by introducing the colloid solution of Ag NPs in pyrrole solution, followed by polymerisation, and calculated for 10% and 20% of monomer's mass. The structural characterisation and morphological analysis of these sensitive materials were carried-out by Raman spectrometry, Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy, and energy-dispersive X-ray spectroscopy. In making the electrodes, the technique of pressing powders of polypyrrole and hybrid composites Ag NPs/polypyrrole in a hydraulic press was used in the form of a disk. The electric bioimpedance performance of sensors was investigated using a two-point method in the frequency range of 1–300 kHz, at a voltage of 2 Vpeak-peak, on six human subjects, three men and three women. For these three bioimpedance sensors, it was found that the electric bioimpedance of the skin decreases across the frequency range and shows good linearity of the impedance-frequency curve on the range frequency of interest in bioimpedance measurements. [ABSTRACT FROM AUTHOR]

Published

2021

9. High-Efficiency Biocidal Solution Based on Radiochemically Synthesized Cu-Au Alloy Nanoparticles.

Author

Lungulescu, Eduard-Marius, Setnescu, Radu, Pătroi, Eros A., Lungu, Magdalena V., Pătroi, Delia, Ion, Ioana, Fierăscu, Radu-Claudiu, Șomoghi, Raluca, Stan, Miruna, and Nicula, Nicoleta-Oana

Subjects

GOLD nanoparticles, MICROBIAL contamination, NANOPARTICLES, MEDICAL sciences, IONIZING radiation, PUBLIC spaces, CANDIDA albicans, ADENOVIRUSES

Abstract

The use of nanotechnologies in the applied biomedical sciences can offer a new way to treat infections and disinfect surfaces, materials, and products contaminated with various types of viruses, bacteria, and fungi. The Cu-Au nanoparticles (NPs) were obtained by an eco-friendly method that allowed the obtaining in a one-step process of size controlled, well dispersed, fully reduced, highly stable NPs at very mild conditions, using high energy ionizing radiations. The gamma irradiation was performed in an aqueous system of Cu2+/Au3+/Sodium Dodecyl Sulfate (SDS)/Ethylene Glycol. After irradiation, the change of color to ruby-red was the first indicator for the formation of NPs. Moreover, the UV-Vis spectra showed a maximum absorption peak between 524 and 540 nm, depending on the copper amount. The Cu-Au NPs presented nearly spherical shapes, sizes between 20 and 90 nm, and a zeta potential of about −44 mV indicating a good electrostatic stability. The biocidal properties performed according to various standards applied in the medical area, in dirty conditions, showed a 5 lg reduction for Staphylococcus aureus, Pseudomonas aeruginosa, and Enterococcus hirae, a 5 lg reduction for both enveloped and non-enveloped viruses such as Adenovirus type 5, Murine Norovirus, and human Coronavirus 229E, and a 4 lg reduction for Candida albicans, respectively. Thus, the radiochemically synthesized Cu-Au alloy NPs proved to have high biocide efficiency against the tested bacteria, fungi, and viruses (both encapsulated and non-encapsulated). Therefore, these nanoparticle solutions are suitable to be used as disinfectants in the decontamination of hospital surfaces or public areas characterized by high levels of microbiological contamination. [ABSTRACT FROM AUTHOR]

Published

2021

10. Monocentric Prospective Study into the Sustained Effect of Incobotulinumtoxin A (XEOMIN®) Botulinum Toxin in Chronic Refractory Migraine.

Author

Ion, Ioana, Renard, Dimitri, Le Floch, Anne, De Verdal, Marie, Bouly, Stephane, Wacongne, Anne, Lozza, Alessandro, and Castelnovo, Giovanni

Subjects

*BOTULINUM toxin, *BOTULINUM A toxins, *MIGRAINE, *TENSION headache, *PREVENTIVE medicine

Abstract

Refractory chronic migraine is a disabling disorder impacting quality of life. BOTOX® (Onabotulinumtoxin A) is approved as a prophylactic treatment of chronic migraine in patients unresponsive to at least three prior preventive treatments. The objective of this study was to determine the prophylactic effect of 145 U XEOMIN® (Incobotulinumtoxin A) injected at 31 specific sites in adult patients with refractory chronic migraine. Sixty-one patients (8 men and 53 women, mean age 50) with migraine were recruited, including 20 patients with isolated chronic migraine, 18 patients with chronic migraine associating tension-type headache, 12 patients with migraine associating medication overuse headache, and 11 patients with episodic disabling migraine. The mean number of injections and duration of treatment per patient was 3.5 (range 2–13) and 21 (6–68) months, respectively. From baseline to first injection, 44 patients (73%) had >50% reduction in frequency of migraine episodes, 29 patients (48%) showed >50% reduction in number of headache days, and 28 patients (46%) had a >50% reduction in drug intake. Stable response for all three parameters was observed after the last injection. XEOMIN® thus seems to represent an effective and sustained prophylactic treatment of chronic migraine. [ABSTRACT FROM AUTHOR]

Published

2018