Marinković, A., Jovanović, A., Bugarčić, M., Knežević, N., Petrović, J.,& Vuksanović, M.. (2024). Inovativna tehnologija dobijanja bitumenskih proizvoda na bazi otpadnog polietilena. 
Beograd : Univerzitet u Beogradu, Tehnološko-metalurški fakultet..

Marinković A, Jovanović A, Bugarčić M, Knežević N, Petrović J, Vuksanović M. Inovativna tehnologija dobijanja bitumenskih proizvoda na bazi otpadnog polietilena. 2024;..

Marinković, Aleksandar, Jovanović, Aleksandar, Bugarčić, Mladen, Knežević, Nataša, Petrović, Jelena, Vuksanović, Marija, "Inovativna tehnologija dobijanja bitumenskih proizvoda na bazi otpadnog polietilena" (2024).

Knežević, V., Knežević, B., Vuksanović, M., Milošević, M., Bošnjaković, J., Jovanović, A., Bugarčić, M.,& Marinković, A.. (2023). Postupak dobijanja regranulata PVC-a sa dodatkom modifikovanog etilenvinilacetata (EVA) za meke proizvode. in INVENTIONS – BELGRADE 2023
Belgrade : Belgrade Association of Inventors..

Knežević V, Knežević B, Vuksanović M, Milošević M, Bošnjaković J, Jovanović A, Bugarčić M, Marinković A. Postupak dobijanja regranulata PVC-a sa dodatkom modifikovanog etilenvinilacetata (EVA) za meke proizvode. in INVENTIONS – BELGRADE 2023. 2023;..

Knežević, Vladimir, Knežević, Branislav, Vuksanović, Marija, Milošević, Milena, Bošnjaković, Jovana, Jovanović, Aleksandar, Bugarčić, Mladen, Marinković, Aleksandar, "Postupak dobijanja regranulata PVC-a sa dodatkom modifikovanog etilenvinilacetata (EVA) za meke proizvode" in INVENTIONS – BELGRADE 2023 (2023).

TY  - CONF
AU  - Knežević, Nataša
AU  - Jovanović, Aleksandar
AU  - Bugarčić, Mladen
AU  - Vuksanović, Marija
AU  - Milošević, Milena
AU  - Pešić, Ivan
AU  - Marinković, Aleksandar
PY  - 2023
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1202
AB  - Cotton-based membranes, due to their exceptional biocompatibility and sustainability,
have attracted considerable attention in various applications, especially in the field of bio and
green technologies. This study investigates the biodegradation potential of cotton membranes
modified with TEMPO (2,2,6,6-tetramethylpiperidine-1-oxyl) radical and citric acid (CA),
with the aim of improving their properties and facilitating environmentally friendly disposal.
TEMPO radicals, in conjunction with the crosslinker citric acid, are incorporated into the
cellulose structure through a novel modification process. The citric acid component acted as a
plasticizer, increasing the amorphous parts of the cellulose and promoting enzymatic attack.
The TEMPO radical, with its nitroxyl group, contributed to the oxidation of cellulose, further
facilitating biodegradation.
The biodegradation aspect of these modified membranes was investigated in
controlled environmental conditions (Soil Burial test), simulating natural scenarios (humidity,
influence of enzymes, and bacteria). Biodegradation parameters such as weight loss,
structural changes, and degradation kinetics were examined during 90 days. Characterization
of the structure was performed using FTIR and SEM methods.
Our findings suggest that cellulosic membranes possess complete (100%)
biodegradability after 70 days compared to unmodified membranes. Obtained result shed
light on the potential of membranes modified in this way as sustainable and biodegradable
alternatives in various applications. The results emphasize their ecological nature and ability
to reduce environmental stress. Such cellulose-based materials promise a much greener future
in biotechnology, healthcare, and environmental protection.
PB  - Belgrade : University of Belgrade, Faculty of Technology and Metallurgy
C3  - International Conference BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY FOR YOUNG SCIENTISTS
T1  - Possibility of biodegradation of cotton membrane containing TEMPO radical and citric acid
ER  - 

@conference{
author = "Knežević, Nataša and Jovanović, Aleksandar and Bugarčić, Mladen and Vuksanović, Marija and Milošević, Milena and Pešić, Ivan and Marinković, Aleksandar",
year = "2023",
abstract = "Cotton-based membranes, due to their exceptional biocompatibility and sustainability,
have attracted considerable attention in various applications, especially in the field of bio and
green technologies. This study investigates the biodegradation potential of cotton membranes
modified with TEMPO (2,2,6,6-tetramethylpiperidine-1-oxyl) radical and citric acid (CA),
with the aim of improving their properties and facilitating environmentally friendly disposal.
TEMPO radicals, in conjunction with the crosslinker citric acid, are incorporated into the
cellulose structure through a novel modification process. The citric acid component acted as a
plasticizer, increasing the amorphous parts of the cellulose and promoting enzymatic attack.
The TEMPO radical, with its nitroxyl group, contributed to the oxidation of cellulose, further
facilitating biodegradation.
The biodegradation aspect of these modified membranes was investigated in
controlled environmental conditions (Soil Burial test), simulating natural scenarios (humidity,
influence of enzymes, and bacteria). Biodegradation parameters such as weight loss,
structural changes, and degradation kinetics were examined during 90 days. Characterization
of the structure was performed using FTIR and SEM methods.
Our findings suggest that cellulosic membranes possess complete (100%)
biodegradability after 70 days compared to unmodified membranes. Obtained result shed
light on the potential of membranes modified in this way as sustainable and biodegradable
alternatives in various applications. The results emphasize their ecological nature and ability
to reduce environmental stress. Such cellulose-based materials promise a much greener future
in biotechnology, healthcare, and environmental protection.",
publisher = "Belgrade : University of Belgrade, Faculty of Technology and Metallurgy",
journal = "International Conference BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY FOR YOUNG SCIENTISTS",
title = "Possibility of biodegradation of cotton membrane containing TEMPO radical and citric acid"
}

Knežević, N., Jovanović, A., Bugarčić, M., Vuksanović, M., Milošević, M., Pešić, I.,& Marinković, A.. (2023). Possibility of biodegradation of cotton membrane containing TEMPO radical and citric acid. in International Conference BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY FOR YOUNG SCIENTISTS
Belgrade : University of Belgrade, Faculty of Technology and Metallurgy..

Knežević N, Jovanović A, Bugarčić M, Vuksanović M, Milošević M, Pešić I, Marinković A. Possibility of biodegradation of cotton membrane containing TEMPO radical and citric acid. in International Conference BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY FOR YOUNG SCIENTISTS. 2023;..

Knežević, Nataša, Jovanović, Aleksandar, Bugarčić, Mladen, Vuksanović, Marija, Milošević, Milena, Pešić, Ivan, Marinković, Aleksandar, "Possibility of biodegradation of cotton membrane containing TEMPO radical and citric acid" in International Conference BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY FOR YOUNG SCIENTISTS (2023).

TY  - CONF
AU  - Jovanović, Aleksandar
AU  - Vuksanović, Marija
AU  - Knežević, Nataša
AU  - Bošnjaković, Jovana
AU  - Bugarčić, Mladen
AU  - Milošević, Milena
AU  - Marinković, Aleksandar
PY  - 2023
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1010
AB  - Worldwide pollution induces a negative impact on the complete environment. Modern societies are becoming
more involved in developing and implementing climate change adaptation policies as a result of
the enormous hazards that climate change poses to human safety worldwide. One of the biggest problems
that highly affects climate change is plastic pollution. Also, the utilization of a linear economy prevents the
opportunity of solving mentioned problem. Hence, a major component of the strategy for tackling plastic
pollution and trying to decrease global weather changes is an implementation of a circular economy. Plastic
has to be reduced, reused, and recycled since its widespread consumption has put environmental protection
at risk. PET, also known as polyethylene terephthalate, is a prominent polymer material used for
the production of packaging, particularly plastic bottles. The majority of PET-based products are made
using raw materials supplied from fossil fuels. However, methods based on biobased materials and recycling-
modified products for obtaining novel products from waste PET have fewer greenhouse gas (GHG)
emissions than the traditional method. Therefore, the subject of this paper is the innovative technology for
the fabrication of materials by PET recycling. Obtained monomer units - glycolysates were acquired by PET
depolymerization by inducing greener solutions. The resulting glycolysate was structurally modified with
maleic anhydride and finally with 2-octanol to obtain a novel plasticizer. The physicochemical characterization
of the obtained plasticizer, performed by infrared spectroscopy with Fourier transform (FTIR) and
NMR spectroscopy, confirmed structural modifications. The mechanical characteristics of the final product
were tested after the plasticizers had been combined with bitumen at a range from 1 to 10 wt.% concentration.
In addition, other PET recycling techniques will be presented and discussed. By comparing them,
it will be determined which technique is most suitable for recycling with the smallest carbon footprint. The
second purpose of the research is to evaluate and contrast the financial and ecological implications of recycling
PET in comparison to other types of waste and renewable energy sources.
PB  - Novi Sad : University of Novi Sad, Faculty of Sciences
C3  - INTERNATIONAL CONFERENCE on HYDRO-CLIMATE EXTREMES and SOCIETY
T1  - Innovative Technology for Recycling Polyethylene Terephthalate: Climate Changes, Approaches, Solutions
EP  - 35
SP  - 35
ER  - 

@conference{
author = "Jovanović, Aleksandar and Vuksanović, Marija and Knežević, Nataša and Bošnjaković, Jovana and Bugarčić, Mladen and Milošević, Milena and Marinković, Aleksandar",
year = "2023",
abstract = "Worldwide pollution induces a negative impact on the complete environment. Modern societies are becoming
more involved in developing and implementing climate change adaptation policies as a result of
the enormous hazards that climate change poses to human safety worldwide. One of the biggest problems
that highly affects climate change is plastic pollution. Also, the utilization of a linear economy prevents the
opportunity of solving mentioned problem. Hence, a major component of the strategy for tackling plastic
pollution and trying to decrease global weather changes is an implementation of a circular economy. Plastic
has to be reduced, reused, and recycled since its widespread consumption has put environmental protection
at risk. PET, also known as polyethylene terephthalate, is a prominent polymer material used for
the production of packaging, particularly plastic bottles. The majority of PET-based products are made
using raw materials supplied from fossil fuels. However, methods based on biobased materials and recycling-
modified products for obtaining novel products from waste PET have fewer greenhouse gas (GHG)
emissions than the traditional method. Therefore, the subject of this paper is the innovative technology for
the fabrication of materials by PET recycling. Obtained monomer units - glycolysates were acquired by PET
depolymerization by inducing greener solutions. The resulting glycolysate was structurally modified with
maleic anhydride and finally with 2-octanol to obtain a novel plasticizer. The physicochemical characterization
of the obtained plasticizer, performed by infrared spectroscopy with Fourier transform (FTIR) and
NMR spectroscopy, confirmed structural modifications. The mechanical characteristics of the final product
were tested after the plasticizers had been combined with bitumen at a range from 1 to 10 wt.% concentration.
In addition, other PET recycling techniques will be presented and discussed. By comparing them,
it will be determined which technique is most suitable for recycling with the smallest carbon footprint. The
second purpose of the research is to evaluate and contrast the financial and ecological implications of recycling
PET in comparison to other types of waste and renewable energy sources.",
publisher = "Novi Sad : University of Novi Sad, Faculty of Sciences",
journal = "INTERNATIONAL CONFERENCE on HYDRO-CLIMATE EXTREMES and SOCIETY",
title = "Innovative Technology for Recycling Polyethylene Terephthalate: Climate Changes, Approaches, Solutions",
pages = "35-35"
}

Jovanović, A., Vuksanović, M., Knežević, N., Bošnjaković, J., Bugarčić, M., Milošević, M.,& Marinković, A.. (2023). Innovative Technology for Recycling Polyethylene Terephthalate: Climate Changes, Approaches, Solutions. in INTERNATIONAL CONFERENCE on HYDRO-CLIMATE EXTREMES and SOCIETY
Novi Sad : University of Novi Sad, Faculty of Sciences., 35-35.

Jovanović A, Vuksanović M, Knežević N, Bošnjaković J, Bugarčić M, Milošević M, Marinković A. Innovative Technology for Recycling Polyethylene Terephthalate: Climate Changes, Approaches, Solutions. in INTERNATIONAL CONFERENCE on HYDRO-CLIMATE EXTREMES and SOCIETY. 2023;:35-35..

Jovanović, Aleksandar, Vuksanović, Marija, Knežević, Nataša, Bošnjaković, Jovana, Bugarčić, Mladen, Milošević, Milena, Marinković, Aleksandar, "Innovative Technology for Recycling Polyethylene Terephthalate: Climate Changes, Approaches, Solutions" in INTERNATIONAL CONFERENCE on HYDRO-CLIMATE EXTREMES and SOCIETY (2023):35-35.

TY  - CONF
AU  - Čutović, Natalija
AU  - Vuksanović, Marija
AU  - Milošević, Milena
AU  - Bugarčić, Mladen
AU  - Bošnjaković, Jovana
AU  - Gržetić, Jelena
AU  - Marinković, Aleksandar
PY  - 2022
UR  - https://ritnms.itnms.ac.rs/handle/123456789/987
AB  - Due to the increasing use and widespread of plastics, poly (ethylene terephthalate) (PET) and poly
(vinyl chloride) (PVC) are becoming one of the major threats to the environment. The aim of this
paper is obtaining plasticizers from recycled PET, and hot/cold mixing thereof with PVC to produce
new materials. Plasticizer was obtained from PET using ethylene glycol (EG) in the presence of
catalyst FASCAT 4100, followed by treatment with maleic anhydride and finally 2-ethylhexanol
(2-EtHex). The obtained glycolysate and plasticizer, individually or mixtures thereof, were used for
the production of polygranulates based on waste PVC in order to obtain an expanded mass of
homogenized PVC with glycolysate/plasticizer. The abovementioned procedures and test results for
the regranulates and products indicate that the proposed technology offers a solution to the problem
of waste PET and PVC through transesterification in order to obtain plasticizer based on PET and
EG, called 2-EtHex/MA/РG/PET/EG/MA/2-EtHex used in the processing of PVC waste and in
regranulate. The obtained regranulates are further processed by injection molding or extrusion into
commercial products such as slippers, footwear, boots, garden hoses, mats, floor mats, etc.
PB  - Bor : University of Belgrade, Technical Faculty in Bor
C3  - 29th International conference ecological truth and environmental research – EcoTER’22
T1  - Recycled poly(ethylene terephthalate) based – plasticizers for PVC regranulates production
EP  - 458
SP  - 452
ER  - 

@conference{
author = "Čutović, Natalija and Vuksanović, Marija and Milošević, Milena and Bugarčić, Mladen and Bošnjaković, Jovana and Gržetić, Jelena and Marinković, Aleksandar",
year = "2022",
abstract = "Due to the increasing use and widespread of plastics, poly (ethylene terephthalate) (PET) and poly
(vinyl chloride) (PVC) are becoming one of the major threats to the environment. The aim of this
paper is obtaining plasticizers from recycled PET, and hot/cold mixing thereof with PVC to produce
new materials. Plasticizer was obtained from PET using ethylene glycol (EG) in the presence of
catalyst FASCAT 4100, followed by treatment with maleic anhydride and finally 2-ethylhexanol
(2-EtHex). The obtained glycolysate and plasticizer, individually or mixtures thereof, were used for
the production of polygranulates based on waste PVC in order to obtain an expanded mass of
homogenized PVC with glycolysate/plasticizer. The abovementioned procedures and test results for
the regranulates and products indicate that the proposed technology offers a solution to the problem
of waste PET and PVC through transesterification in order to obtain plasticizer based on PET and
EG, called 2-EtHex/MA/РG/PET/EG/MA/2-EtHex used in the processing of PVC waste and in
regranulate. The obtained regranulates are further processed by injection molding or extrusion into
commercial products such as slippers, footwear, boots, garden hoses, mats, floor mats, etc.",
publisher = "Bor : University of Belgrade, Technical Faculty in Bor",
journal = "29th International conference ecological truth and environmental research – EcoTER’22",
title = "Recycled poly(ethylene terephthalate) based – plasticizers for PVC regranulates production",
pages = "458-452"
}

Čutović, N., Vuksanović, M., Milošević, M., Bugarčić, M., Bošnjaković, J., Gržetić, J.,& Marinković, A.. (2022). Recycled poly(ethylene terephthalate) based – plasticizers for PVC regranulates production. in 29th International conference ecological truth and environmental research – EcoTER’22
Bor : University of Belgrade, Technical Faculty in Bor., 452-458.

Čutović N, Vuksanović M, Milošević M, Bugarčić M, Bošnjaković J, Gržetić J, Marinković A. Recycled poly(ethylene terephthalate) based – plasticizers for PVC regranulates production. in 29th International conference ecological truth and environmental research – EcoTER’22. 2022;:452-458..

Čutović, Natalija, Vuksanović, Marija, Milošević, Milena, Bugarčić, Mladen, Bošnjaković, Jovana, Gržetić, Jelena, Marinković, Aleksandar, "Recycled poly(ethylene terephthalate) based – plasticizers for PVC regranulates production" in 29th International conference ecological truth and environmental research – EcoTER’22 (2022):452-458.

TY  - CONF
AU  - Jovanović, Aleksandar
AU  - Knežević, Nataša
AU  - Čutović, Natalija
AU  - Đolić, Maja
AU  - Prlainović, Nevena
AU  - Veličković, Zlate
AU  - Vuksanović, Marija
PY  - 2022
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1011
AB  - Management of waste polymers (polyethylene - PE and polypropylene - PP) represents one of the major
obstacles in the field of environmental protection, which demands a most efficient and eco-friendly
technological solution. Due to the high use of various plastic materials, the amount of landfilled or
dissipated plastic waste is continuously growing. Therefore, this paper examines the possibilities of
recycling these polymers, alongside obtaining granules of similar or advanced physico-mechanical
characteristics to the commercially available ones. The applied technology consists of several
consecutive processes (collecting, grinding, washing and extruding) where the obtained materials can
later be incorporated into widely applicable products, such as foils, bin liners, bags, among others. In
this way, high-quality products with great market potential are obtained, which will consequently
contribute to lower extraction and less depletion of natural resources. Thus major problems may be
solved optimally, consolidating the efficiency of improved eco-friendly technologies which is in line with
environmental protection and sustainable waste management.
PB  - Bor : University of Belgrade, Technical Faculty in Bor
C3  - 29th INTERNATIONAL CONFERENCE ECOLOGICAL TRUTH AND ENVIRONMENTAL RESEARCH – EcoTER’22
T1  - Improved technology for production of PE and PP regranulates
EP  - 189
SP  - 186
ER  - 

@conference{
author = "Jovanović, Aleksandar and Knežević, Nataša and Čutović, Natalija and Đolić, Maja and Prlainović, Nevena and Veličković, Zlate and Vuksanović, Marija",
year = "2022",
abstract = "Management of waste polymers (polyethylene - PE and polypropylene - PP) represents one of the major
obstacles in the field of environmental protection, which demands a most efficient and eco-friendly
technological solution. Due to the high use of various plastic materials, the amount of landfilled or
dissipated plastic waste is continuously growing. Therefore, this paper examines the possibilities of
recycling these polymers, alongside obtaining granules of similar or advanced physico-mechanical
characteristics to the commercially available ones. The applied technology consists of several
consecutive processes (collecting, grinding, washing and extruding) where the obtained materials can
later be incorporated into widely applicable products, such as foils, bin liners, bags, among others. In
this way, high-quality products with great market potential are obtained, which will consequently
contribute to lower extraction and less depletion of natural resources. Thus major problems may be
solved optimally, consolidating the efficiency of improved eco-friendly technologies which is in line with
environmental protection and sustainable waste management.",
publisher = "Bor : University of Belgrade, Technical Faculty in Bor",
journal = "29th INTERNATIONAL CONFERENCE ECOLOGICAL TRUTH AND ENVIRONMENTAL RESEARCH – EcoTER’22",
title = "Improved technology for production of PE and PP regranulates",
pages = "189-186"
}

Jovanović, A., Knežević, N., Čutović, N., Đolić, M., Prlainović, N., Veličković, Z.,& Vuksanović, M.. (2022). Improved technology for production of PE and PP regranulates. in 29th INTERNATIONAL CONFERENCE ECOLOGICAL TRUTH AND ENVIRONMENTAL RESEARCH – EcoTER’22
Bor : University of Belgrade, Technical Faculty in Bor., 186-189.

Jovanović A, Knežević N, Čutović N, Đolić M, Prlainović N, Veličković Z, Vuksanović M. Improved technology for production of PE and PP regranulates. in 29th INTERNATIONAL CONFERENCE ECOLOGICAL TRUTH AND ENVIRONMENTAL RESEARCH – EcoTER’22. 2022;:186-189..

Jovanović, Aleksandar, Knežević, Nataša, Čutović, Natalija, Đolić, Maja, Prlainović, Nevena, Veličković, Zlate, Vuksanović, Marija, "Improved technology for production of PE and PP regranulates" in 29th INTERNATIONAL CONFERENCE ECOLOGICAL TRUTH AND ENVIRONMENTAL RESEARCH – EcoTER’22 (2022):186-189.

TY  - JOUR
AU  - Vuksanović, Marija M.
AU  - Jovanović, Aleksandar
AU  - Milošević, Milena D.
AU  - Gržetić, Jelena
AU  - Stajčić, Ivana M.
AU  - Jančić-Heinemann, Radmila M.
AU  - Marinković, Aleksandar D.
PY  - 2022
UR  - https://ritnms.itnms.ac.rs/handle/123456789/615
AB  - Predmet ovog istraživanja je sinteza glikolizata iz recikliranog poli(etilen tereftalata) (PET) postupcima depolimerizacije pomoću dietilenglikoala (DEG) u prisustvu katalizatora FASCAT 4100. Dobijeni glikolizat je zatim tretiran anhidridom maleinske kiseline i na kraju 2-oktanolom (2-EtHex pri čemu se dobija 2-EtHex/MA/DEG/PET/EG/MA/2-EtHex plastifikator. Karakterizacija dobijenog plastifikatora izvršena je infracrvenom spektroskopijom sa Furijeovom transformacijom (FTIR) i NMR spektroskopijom. Dobijeni plastifikatori (10 tež. %) su umešani u bitumen a zatim u su izvršena ispitivanja mehaničkih svojstava dobijenih proizvoda.
AB  - The subject of this study is the synthesis of glycolysates from recycled poly (ethylene terephthalate) (PET) by depolymerization using diethylene glycol (DEG) in the presence of catalyst FASCAT 4100. The resulting glycolysate was then treated with maleic anhydride and finally with 2-octanol to obtain a 2-EtHex/MA/DEG/PET/EG/MA/2-EtHex plasticizer. The characterization of the obtained plasticizer was performed by infrared spectroscopy with Fourier transform (FTIR) and NMR spectroscopy. The obtained plasticizers were mixed into bitumen with 10 wt. % and tests of mechanical properties of obtained products were performed.
PB  - Savez inženjera i tehničara Srbije, Beograd
T2  - Tehnika
T1  - Ispitivanje mehaničkih svojstava bitumenskih proizvoda dobijenih korišćenjem plastifikatora na bazi polietilen tereftalat-a
T1  - Testing of mechanical properties of bitumen products obtained using polyethylene tereftalate-based plastifiers
EP  - 417
IS  - 4
SP  - 413
VL  - 77
DO  - 10.5937/tehnika2204413V
UR  - conv_37
ER  - 

@article{
author = "Vuksanović, Marija M. and Jovanović, Aleksandar and Milošević, Milena D. and Gržetić, Jelena and Stajčić, Ivana M. and Jančić-Heinemann, Radmila M. and Marinković, Aleksandar D.",
year = "2022",
abstract = "Predmet ovog istraživanja je sinteza glikolizata iz recikliranog poli(etilen tereftalata) (PET) postupcima depolimerizacije pomoću dietilenglikoala (DEG) u prisustvu katalizatora FASCAT 4100. Dobijeni glikolizat je zatim tretiran anhidridom maleinske kiseline i na kraju 2-oktanolom (2-EtHex pri čemu se dobija 2-EtHex/MA/DEG/PET/EG/MA/2-EtHex plastifikator. Karakterizacija dobijenog plastifikatora izvršena je infracrvenom spektroskopijom sa Furijeovom transformacijom (FTIR) i NMR spektroskopijom. Dobijeni plastifikatori (10 tež. %) su umešani u bitumen a zatim u su izvršena ispitivanja mehaničkih svojstava dobijenih proizvoda., The subject of this study is the synthesis of glycolysates from recycled poly (ethylene terephthalate) (PET) by depolymerization using diethylene glycol (DEG) in the presence of catalyst FASCAT 4100. The resulting glycolysate was then treated with maleic anhydride and finally with 2-octanol to obtain a 2-EtHex/MA/DEG/PET/EG/MA/2-EtHex plasticizer. The characterization of the obtained plasticizer was performed by infrared spectroscopy with Fourier transform (FTIR) and NMR spectroscopy. The obtained plasticizers were mixed into bitumen with 10 wt. % and tests of mechanical properties of obtained products were performed.",
publisher = "Savez inženjera i tehničara Srbije, Beograd",
journal = "Tehnika",
title = "Ispitivanje mehaničkih svojstava bitumenskih proizvoda dobijenih korišćenjem plastifikatora na bazi polietilen tereftalat-a, Testing of mechanical properties of bitumen products obtained using polyethylene tereftalate-based plastifiers",
pages = "417-413",
number = "4",
volume = "77",
doi = "10.5937/tehnika2204413V",
url = "conv_37"
}

Vuksanović, M. M., Jovanović, A., Milošević, M. D., Gržetić, J., Stajčić, I. M., Jančić-Heinemann, R. M.,& Marinković, A. D.. (2022). Ispitivanje mehaničkih svojstava bitumenskih proizvoda dobijenih korišćenjem plastifikatora na bazi polietilen tereftalat-a. in Tehnika
Savez inženjera i tehničara Srbije, Beograd., 77(4), 413-417.
https://doi.org/10.5937/tehnika2204413V
conv_37

Vuksanović MM, Jovanović A, Milošević MD, Gržetić J, Stajčić IM, Jančić-Heinemann RM, Marinković AD. Ispitivanje mehaničkih svojstava bitumenskih proizvoda dobijenih korišćenjem plastifikatora na bazi polietilen tereftalat-a. in Tehnika. 2022;77(4):413-417.
doi:10.5937/tehnika2204413V
conv_37 .

Vuksanović, Marija M., Jovanović, Aleksandar, Milošević, Milena D., Gržetić, Jelena, Stajčić, Ivana M., Jančić-Heinemann, Radmila M., Marinković, Aleksandar D., "Ispitivanje mehaničkih svojstava bitumenskih proizvoda dobijenih korišćenjem plastifikatora na bazi polietilen tereftalat-a" in Tehnika, 77, no. 4 (2022):413-417,
https://doi.org/10.5937/tehnika2204413V .,
conv_37 .

TY  - JOUR
AU  - Ben Omran, Kaled Mohamed
AU  - Shwika, Salem Ibrahim
AU  - Vuksanović, Marija M.
AU  - Marinković, Aleksandar D.
AU  - Jovanović, Aleksandar
AU  - Prlainović, Nevena
AU  - Vasilski, Dragana
PY  - 2022
UR  - https://ritnms.itnms.ac.rs/handle/123456789/609
AB  - During a fire, passive fire protection systems are designed to prevent the spread of flames, smoke, and toxic gases. The new fire-retardant (FR) material, used for passive fire protection, is created by combining copolymers (VC-co-VAc) (Slovinyl KV 173) and PVC K70 with expanded graphite and plasticizers/modifiers such as diisononyl phthalate - DINP, diisononyl terephthalate - DINTP, dioctyl adipate - DOA, as well as plasticizers that are synthesized based on tertiary recycling of waste poly(ethylene terephthalate) (PET), 1-hexadecene, azodicarbonamide (ADC), tri(p-cresyl phosphate), epoxidized soybean oil (ESO) and acrylate emulsion (DH50, Ecrylic, or Flexryl, etc.). The obtained material's morphology was examined using an emission scanning electron microscope (FESEM) field. Tensile testing was used to determine the mechanical properties of the obtained samples, as well as Shore A hardness and toughness using the Charpy impact test. All samples obtained were tested according to non-flammability standards. To conform to the new trend of "green economy," the development of novel eco-friendly FRs with improved thermal and mechanical properties will include careful consideration of environmental protection and sustainable development.
PB  - Savez inženjera metalurgije Srbije, Beograd
T2  - Metallurgical & Materials Engineering
T1  - Circular economy implementation in the development of fire-retardant materials used in construction, industry, and general-purpose products
EP  - 379
IS  - 2
SP  - 369
VL  - 28
DO  - 10.30544/768
UR  - conv_947
ER  - 

@article{
author = "Ben Omran, Kaled Mohamed and Shwika, Salem Ibrahim and Vuksanović, Marija M. and Marinković, Aleksandar D. and Jovanović, Aleksandar and Prlainović, Nevena and Vasilski, Dragana",
year = "2022",
abstract = "During a fire, passive fire protection systems are designed to prevent the spread of flames, smoke, and toxic gases. The new fire-retardant (FR) material, used for passive fire protection, is created by combining copolymers (VC-co-VAc) (Slovinyl KV 173) and PVC K70 with expanded graphite and plasticizers/modifiers such as diisononyl phthalate - DINP, diisononyl terephthalate - DINTP, dioctyl adipate - DOA, as well as plasticizers that are synthesized based on tertiary recycling of waste poly(ethylene terephthalate) (PET), 1-hexadecene, azodicarbonamide (ADC), tri(p-cresyl phosphate), epoxidized soybean oil (ESO) and acrylate emulsion (DH50, Ecrylic, or Flexryl, etc.). The obtained material's morphology was examined using an emission scanning electron microscope (FESEM) field. Tensile testing was used to determine the mechanical properties of the obtained samples, as well as Shore A hardness and toughness using the Charpy impact test. All samples obtained were tested according to non-flammability standards. To conform to the new trend of "green economy," the development of novel eco-friendly FRs with improved thermal and mechanical properties will include careful consideration of environmental protection and sustainable development.",
publisher = "Savez inženjera metalurgije Srbije, Beograd",
journal = "Metallurgical & Materials Engineering",
title = "Circular economy implementation in the development of fire-retardant materials used in construction, industry, and general-purpose products",
pages = "379-369",
number = "2",
volume = "28",
doi = "10.30544/768",
url = "conv_947"
}

Ben Omran, K. M., Shwika, S. I., Vuksanović, M. M., Marinković, A. D., Jovanović, A., Prlainović, N.,& Vasilski, D.. (2022). Circular economy implementation in the development of fire-retardant materials used in construction, industry, and general-purpose products. in Metallurgical & Materials Engineering
Savez inženjera metalurgije Srbije, Beograd., 28(2), 369-379.
https://doi.org/10.30544/768
conv_947

Ben Omran KM, Shwika SI, Vuksanović MM, Marinković AD, Jovanović A, Prlainović N, Vasilski D. Circular economy implementation in the development of fire-retardant materials used in construction, industry, and general-purpose products. in Metallurgical & Materials Engineering. 2022;28(2):369-379.
doi:10.30544/768
conv_947 .

Ben Omran, Kaled Mohamed, Shwika, Salem Ibrahim, Vuksanović, Marija M., Marinković, Aleksandar D., Jovanović, Aleksandar, Prlainović, Nevena, Vasilski, Dragana, "Circular economy implementation in the development of fire-retardant materials used in construction, industry, and general-purpose products" in Metallurgical & Materials Engineering, 28, no. 2 (2022):369-379,
https://doi.org/10.30544/768 .,
conv_947 .

Marinković, A., Vuksanović, M., Bogdanović, A., Milošević, M., Bugarčić, M., Egelja, A.,& Tomić, N.. (2021). Postupak dobijanja ekspandirajućeg materijala sa plastifikatorima iz recikliranog poli(etilen terefatalata) (PET). 
Beograd : Univerzitet u Beogradu, Tehnološko-metalurški fakultet..

Marinković A, Vuksanović M, Bogdanović A, Milošević M, Bugarčić M, Egelja A, Tomić N. Postupak dobijanja ekspandirajućeg materijala sa plastifikatorima iz recikliranog poli(etilen terefatalata) (PET). 2021;..

Marinković, Aleksandar, Vuksanović, Marija, Bogdanović, Aleksandra, Milošević, Milena, Bugarčić, Mladen, Egelja, Adela, Tomić, Nataša, "Postupak dobijanja ekspandirajućeg materijala sa plastifikatorima iz recikliranog poli(etilen terefatalata) (PET)" (2021).

Marinković, A., Čutović, N., Jovanović, A., Vuksanović, M., Rusmirović, J.,& Batinić, P.. (2021). Novi postupak sinteze amino i epoksi derivata taninske kiseline i lignina za proizvodnju epoksidnih smola na bioobnovljivoj osnovi. in 19th International Innovation Exhibition, National and University Library in Zagreb, Croatia
Udruga inovatora Hrvatske..

Marinković A, Čutović N, Jovanović A, Vuksanović M, Rusmirović J, Batinić P. Novi postupak sinteze amino i epoksi derivata taninske kiseline i lignina za proizvodnju epoksidnih smola na bioobnovljivoj osnovi. in 19th International Innovation Exhibition, National and University Library in Zagreb, Croatia. 2021;..

Marinković, Aleksandar, Čutović, Natalija, Jovanović, Aleksandar, Vuksanović, Marija, Rusmirović, Jelena, Batinić, Petar, "Novi postupak sinteze amino i epoksi derivata taninske kiseline i lignina za proizvodnju epoksidnih smola na bioobnovljivoj osnovi" in 19th International Innovation Exhibition, National and University Library in Zagreb, Croatia (2021).

Marinković, A., Vuksanović, M., Egelja, A., Jovanović, A.,& Tomić, N.. (2020). Postupak dobijanja ekspandirajućeg materijala otpornog na gorenje poboljšanih mehaničkih svojstava. 
Beograd : Univerzitet u Beogradu, Tehnološko-metalurški fakultet..

Marinković A, Vuksanović M, Egelja A, Jovanović A, Tomić N. Postupak dobijanja ekspandirajućeg materijala otpornog na gorenje poboljšanih mehaničkih svojstava. 2020;..

Marinković, Aleksandar, Vuksanović, Marija, Egelja, Adela, Jovanović, Aleksandar, Tomić, Nataša, "Postupak dobijanja ekspandirajućeg materijala otpornog na gorenje poboljšanih mehaničkih svojstava" (2020).