TY  - GEN
AU  - Salah Adeen Embirsh, Hifa
AU  - Vuksanović, Marija M.
AU  - Mladenović, Ivana O.
AU  - Knežević, Nataša
AU  - Milošević, Milena
AU  - Mijatov, Slavko
AU  - Jančić-Heinemann, Radmila
AU  - Marinković, Aleksandar
PY  - 2024
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/7601
AB  - Materials from green resources boast a low carbon footprint, forming the foundation of
 the circular economy approach in materials science. Thus, in this study, waste poly(ethylene
terephthalate) (PET) was subjected to depolymerization using propylene glycol (PG), and
subsequent polycondensation with bio-based maleic anhydride (MA) produced unsaturated
 polyester resin (b-UPR). Bio-derived acryloyl-modified Kraft lignin (KfL-A) served as a vinyl
 reactive filler in the b-UPR matrix to create b-UPR/KfL-A composites. The structural
characterization of KfL-A and b-UPR involved the use of FTIR and NMR techniques. The
 mechanical properties of the newly fabricated composites were assessed through tensile strength,
 Vickers microhardness, and dynamic mechanical tests. The addition of KfL-A to the rigid b-UPR
 matrix enhanced material flexibility, resulting in less stiff and hard materials while preserving
 composite toughness. For instance, incorporating 10 wt.% of KfL-A in b-UPR led to a 17%
 reduction in hardness, a 48% decrease in tensile strength, and a 20% reduction in toughness.
 Positive environmental impact was achieved by incorporation of 64 wt.% of renewable and
 recycled raw material. Analogously prepared b-UPR/KfL composites showed structural
 inhomogeneity and somewhat better mechanical properties. Transmission (TEM) and scanning
(SEM) electron microscopies revealed a suitable relationship between mechanical and structural
 properties of composites in relation to the extent of KfL-A addition. The UL94V flammability
 rating confirmed that flame resistance increased proportionally with the KfL-A addition. Once
 deposited in a landfill, these composites are expected to disintegrate more easily than PET, causing less harm to the environment and contributing to sustainability in the plastics cycle.
PB  - Elsevier
T2  - Chemosphere
T1  - Unsaturated polyester resin based composites: A case study of lignin valorisation
SP  - 142144
DO  - 10.1016/j.chemosphere.2024.142144.
ER  - 

@misc{
author = "Salah Adeen Embirsh, Hifa and Vuksanović, Marija M. and Mladenović, Ivana O. and Knežević, Nataša and Milošević, Milena and Mijatov, Slavko and Jančić-Heinemann, Radmila and Marinković, Aleksandar",
year = "2024",
abstract = "Materials from green resources boast a low carbon footprint, forming the foundation of
 the circular economy approach in materials science. Thus, in this study, waste poly(ethylene
terephthalate) (PET) was subjected to depolymerization using propylene glycol (PG), and
subsequent polycondensation with bio-based maleic anhydride (MA) produced unsaturated
 polyester resin (b-UPR). Bio-derived acryloyl-modified Kraft lignin (KfL-A) served as a vinyl
 reactive filler in the b-UPR matrix to create b-UPR/KfL-A composites. The structural
characterization of KfL-A and b-UPR involved the use of FTIR and NMR techniques. The
 mechanical properties of the newly fabricated composites were assessed through tensile strength,
 Vickers microhardness, and dynamic mechanical tests. The addition of KfL-A to the rigid b-UPR
 matrix enhanced material flexibility, resulting in less stiff and hard materials while preserving
 composite toughness. For instance, incorporating 10 wt.% of KfL-A in b-UPR led to a 17%
 reduction in hardness, a 48% decrease in tensile strength, and a 20% reduction in toughness.
 Positive environmental impact was achieved by incorporation of 64 wt.% of renewable and
 recycled raw material. Analogously prepared b-UPR/KfL composites showed structural
 inhomogeneity and somewhat better mechanical properties. Transmission (TEM) and scanning
(SEM) electron microscopies revealed a suitable relationship between mechanical and structural
 properties of composites in relation to the extent of KfL-A addition. The UL94V flammability
 rating confirmed that flame resistance increased proportionally with the KfL-A addition. Once
 deposited in a landfill, these composites are expected to disintegrate more easily than PET, causing less harm to the environment and contributing to sustainability in the plastics cycle.",
publisher = "Elsevier",
journal = "Chemosphere",
title = "Unsaturated polyester resin based composites: A case study of lignin valorisation",
pages = "142144",
doi = "10.1016/j.chemosphere.2024.142144."
}

Salah Adeen Embirsh, H., Vuksanović, M. M., Mladenović, I. O., Knežević, N., Milošević, M., Mijatov, S., Jančić-Heinemann, R.,& Marinković, A.. (2024). Unsaturated polyester resin based composites: A case study of lignin valorisation. in Chemosphere
Elsevier., 142144.
https://doi.org/10.1016/j.chemosphere.2024.142144.

Salah Adeen Embirsh H, Vuksanović MM, Mladenović IO, Knežević N, Milošević M, Mijatov S, Jančić-Heinemann R, Marinković A. Unsaturated polyester resin based composites: A case study of lignin valorisation. in Chemosphere. 2024;:142144.
doi:10.1016/j.chemosphere.2024.142144. .

Salah Adeen Embirsh, Hifa, Vuksanović, Marija M., Mladenović, Ivana O., Knežević, Nataša, Milošević, Milena, Mijatov, Slavko, Jančić-Heinemann, Radmila, Marinković, Aleksandar, "Unsaturated polyester resin based composites: A case study of lignin valorisation" in Chemosphere (2024):142144,
https://doi.org/10.1016/j.chemosphere.2024.142144. . .

TY  - JOUR
AU  - Mladenović, Ivana O.
AU  - Vuksanović, Marija M.
AU  - Dimitrijević, Stevan P.
AU  - Vasilić, Rastko
AU  - Radojević, Vesna J.
AU  - Vasiljević-Radović, Dana G.
AU  - Nikolić, Nebojša D.
PY  - 2023
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/7108
AB  - Copper from sulfate baths without and with added inorganic pigment particles based on strontium aluminate doped with europium and dysprosium (SrAl2O4: Eu2+, Dy3+) was electrodeposited on a brass cathode by a galvanostatic regime. Morphological, structural, and roughness analysis of the pigment particles, the pure (pigment-free) Cu coating, and the Cu coatings with incorporated pigment particles were performed using SEM, XRD, and AFM techniques, respectively. Hardness and creep resistance were considered for the examination of the mechanical properties of the Cu coatings, applying Chicot–Lesage (for hardness) and Sargent–Ashby (for creep resistance) mathematical models. The wettability of the Cu coatings was examined by the static sessile drop method by a measurement of the water contact angle. The incorporation of pigment particles in the Cu deposits did not significantly affect the morphology or texture of the coatings, while the roughness of the deposits rose with the rise in pigment particle concentrations. The hardness of the Cu coatings also increased with the increasing concentration of pigments and was greater than that obtained for the pigment-free Cu coating. The presence of the pigments caused a change in the wettability of the Cu coatings from hydrophilic (for the pigment-free Cu coating) to hydrophobic (for Cu coatings with incorporated particles) surface areas.
PB  - MDPI
T2  - Metals
T1  - Mechanical Properties of Electrolytically Produced Copper Coatings Reinforced with Pigment Particles
VL  - 13
IS  - 12
SP  - 1979
DO  - 10.3390/met13121979
ER  - 

@article{
author = "Mladenović, Ivana O. and Vuksanović, Marija M. and Dimitrijević, Stevan P. and Vasilić, Rastko and Radojević, Vesna J. and Vasiljević-Radović, Dana G. and Nikolić, Nebojša D.",
year = "2023",
abstract = "Copper from sulfate baths without and with added inorganic pigment particles based on strontium aluminate doped with europium and dysprosium (SrAl2O4: Eu2+, Dy3+) was electrodeposited on a brass cathode by a galvanostatic regime. Morphological, structural, and roughness analysis of the pigment particles, the pure (pigment-free) Cu coating, and the Cu coatings with incorporated pigment particles were performed using SEM, XRD, and AFM techniques, respectively. Hardness and creep resistance were considered for the examination of the mechanical properties of the Cu coatings, applying Chicot–Lesage (for hardness) and Sargent–Ashby (for creep resistance) mathematical models. The wettability of the Cu coatings was examined by the static sessile drop method by a measurement of the water contact angle. The incorporation of pigment particles in the Cu deposits did not significantly affect the morphology or texture of the coatings, while the roughness of the deposits rose with the rise in pigment particle concentrations. The hardness of the Cu coatings also increased with the increasing concentration of pigments and was greater than that obtained for the pigment-free Cu coating. The presence of the pigments caused a change in the wettability of the Cu coatings from hydrophilic (for the pigment-free Cu coating) to hydrophobic (for Cu coatings with incorporated particles) surface areas.",
publisher = "MDPI",
journal = "Metals",
title = "Mechanical Properties of Electrolytically Produced Copper Coatings Reinforced with Pigment Particles",
volume = "13",
number = "12",
pages = "1979",
doi = "10.3390/met13121979"
}

Mladenović, I. O., Vuksanović, M. M., Dimitrijević, S. P., Vasilić, R., Radojević, V. J., Vasiljević-Radović, D. G.,& Nikolić, N. D.. (2023). Mechanical Properties of Electrolytically Produced Copper Coatings Reinforced with Pigment Particles. in Metals
MDPI., 13(12), 1979.
https://doi.org/10.3390/met13121979

Mladenović IO, Vuksanović MM, Dimitrijević SP, Vasilić R, Radojević VJ, Vasiljević-Radović DG, Nikolić ND. Mechanical Properties of Electrolytically Produced Copper Coatings Reinforced with Pigment Particles. in Metals. 2023;13(12):1979.
doi:10.3390/met13121979 .

Mladenović, Ivana O., Vuksanović, Marija M., Dimitrijević, Stevan P., Vasilić, Rastko, Radojević, Vesna J., Vasiljević-Radović, Dana G., Nikolić, Nebojša D., "Mechanical Properties of Electrolytically Produced Copper Coatings Reinforced with Pigment Particles" in Metals, 13, no. 12 (2023):1979,
https://doi.org/10.3390/met13121979 . .