Your search keyword '"Hudec, Ivan"' showing total 13 results

1. Sulfur and peroxide curing of NBR based rubber compounds filled with kraft lignin and calcium lignosulfonate.

Author

Kruželák, Ján, Džuganová, Michaela, Hložeková, Klaudia, Kvasničáková, Andrea, Ház, Aleš, Nadányi, Richard, Krump, Henrich, and Hudec, Ivan

Subjects

PEROXIDES, VULCANIZATION, DICUMYL peroxide, NITRILE rubber, LIGNINS, RUBBER

Abstract

Rubber compounds based on acrylonitrile‐butadiene rubber were filled with biopolymer fillers, namely kraft lignin, and calcium lignosulfonate. For cross‐linking of rubber compounds, sulfur curing system, dicumyl peroxide, and combination of dicumyl peroxide with trimethylolpropane trimethacrylate were used. The main objective of the work was to investigate the influence of biopolymer fillers content and curing system composition on vulcanization process of rubber compounds, cross‐link density, morphology, and physical‐mechanical properties of vulcanizates. The results revealed that rubber compounds filled with calcium lignosulfonate can be efficiently cured with sulfur as well as peroxide curing systems. Modulus, hardness, and elongation at break were strongly dependent on cross‐link density. Vulcanizates filled with high content of lignosulfonate exhibited comparable values of tensile strength, regardless of the curing system applied. The application of kraft lignin into peroxide systems cured rubber compounds resulted in undesirable reactions between functional groups of the biopolymer and peroxide radicals. Depletion of peroxide radicals resulted in significant deceleration of curing process and decrease in cross‐link density of vulcanizates. This was reflected in typical change of physical‐mechanical characteristics, decrease in modulus and hardness, and increase in elongation at break. Very good adhesion and compatibility between the kraft lignin and the rubber matrix resulted in enhancement of tensile behavior of vulcanizates cured with sulfur system. [ABSTRACT FROM AUTHOR]

Published

2024

2. Sulfur and Peroxide Vulcanization of the Blends Based on Styrene–Butadiene Rubber, Ethylene–Propylene–Diene Monomer Rubber and Their Combinations.

Author

Kruželák, Ján, Kvasničáková, Andrea, Džuganová, Michaela, Hanzlik, Jan, Bednarik, Martin, Chodák, Ivan, and Hudec, Ivan

Subjects

RUBBER, STYRENE-butadiene rubber, VULCANIZATION, DICUMYL peroxide, ELASTOMERS, GLASS transition temperature, MONOMERS, PEROXIDES

Abstract

Rubber blends based on styrene–butadiene rubber, ethylene–propylene–diene monomer rubber and a combination of both rubbers were cured with different sulfur and peroxide curing systems. In sulfur curing systems, two type of accelerators, namely tetramethylthiuram disulfide, N-cyclohexyl-2-benzothiazole sulfenamide, and combinations of both accelerators were used. In peroxide curing systems, dicumyl peroxide, and a combination of dicumyl peroxide with zinc diacrylate or zinc dimethacrylate, respectively, were applied. The work was aimed at investigating the effect of curing systems composition as well as the type of rubber or rubber combinations on the curing process, cross-link density and physical–mechanical properties of vulcanizates. The dynamic mechanical properties of the selected vulcanizates were examined too. The results revealed a correlation between the cross-link density and physical–mechanical properties. Similarly, there was a certain correlation between the cross-linking degree and glass transition temperature. The tensile strength of vulcanizates based on rubber combinations was higher when compared to that based on pure rubbers, which points out the fact that in rubber combinations, not only are the features of both elastomers combined, but improvement in the tensile characteristics can also be achieved. When compared to vulcanizates cured with dicumyl peroxide, materials cured with a sulfur system exhibited higher tensile strength. With the application of co-agents in peroxide vulcanization, the tensile strength overcame the tensile behavior of sulfur-cured vulcanizates. [ABSTRACT FROM AUTHOR]

Published

2024

3. Combined Sulfur and Peroxide Vulcanization of Filled and Unfilled EPDM-Based Rubber Compounds.

Author

Kruželák, Ján, Mikolajová, Mária, Kvasničáková, Andrea, Džuganová, Michaela, Chodák, Ivan, Hronkovič, Ján, Preťo, Jozef, and Hudec, Ivan

Subjects

VULCANIZATION, RUBBER, SULFUR, PEROXIDES, TENSILE strength, CURING

Abstract

The sulfur curing system, peroxide curing system and their combinations were applied for the cross-linking of unfilled and carbon black-filled rubber formulations based on ethylene-propylenediene-monomer rubber. The results demonstrated that the type of curing system influenced the course and shape of curing isotherms. This resulted in the change of curing kinetics of rubber compounds. The cross-link density of materials cured with combined vulcanization systems was lower than that for vulcanizates cured with the peroxide or sulfur system. Good correlation between the cross-link density as well as the structure of the formed cross-links and physical–mechanical characteristics of the cured materials was established. Both filled and unfilled vulcanizates cured with combined vulcanization systems exhibited a higher tensile strength and elongation at break when compared to their equivalents vulcanized in the presence of the peroxide or sulfur curing system. It can be stated that by proper combination of vulcanization systems, it is possible to modify the tensile behavior of vulcanizates in a targeted manner. On the other side, dynamical–mechanical properties were found not be significantly influenced by the curing system composition. [ABSTRACT FROM AUTHOR]

Published

2023

4. The effect of temperature and peroxides content on cross-linking and properties of EPDM-based rubber matrix.

Author

Kruželák, Ján, Kvasničáková, Andrea, Hložeková, Klaudia, Džuganová, Michaela, and Hudec, Ivan

Subjects

VULCANIZATION, TEMPERATURE effect, DICUMYL peroxide, CHAIN scission, LOW temperatures, PEROXIDES, RUBBER, CURING

Abstract

In this work, dicumyl peroxide (DCP), di-tert-butyl peroxide (DTBP), di(tert-butylperoxyisopropyl)benzene (DTBPIB), and 2,5-dimethyl-2,5-di(tert-butylperoxy)hexane (DDTBPH) were used for cross-linking of rubber matrix based on Ethylene-propylene-diene monomer rubber (EPDM). The aim was to investigate the influence of curing temperature and the type and content of peroxide on curing process of rubber compounds, cross-link density, and physical-mechanical properties of vulcanizates. The results revealed that higher curing temperatures promote faster decomposition of organic peroxides, leading to the faster reactions of peroxide radicals with rubber chains. The increase in temperature resulted also in the increase of cross-linking degree. Although, side reactions as chain scission take over the main cross-linking reactions at very high temperatures resulting in the decrease of cross-link density. The increasing content of peroxides resulted in the acceleration of curing reactions and to increase of cross-link density. The fastest curing kinetics exhibited rubber compounds cured with DCP. However, vulcanizates cured with DCP were found to have the lowest cross-link density. In generally, the dependences of modulus, hardness, and elongation at break of vulcanizates were in line with the dependences of the cross-link densities, while higher tensile strength were found to have vulcanizates cured at higher temperatures and lower peroxides content. [ABSTRACT FROM AUTHOR]

Published

2022

5. Application of Sulfur and Peroxide Curing Systems for Cross-Linking of Rubber Composites Filled with Calcium Lignosulfonate.

Author

Kruželák, Ján, Hložeková, Klaudia, Kvasničáková, Andrea, Tomanová, Katarína, and Hudec, Ivan

Subjects

VULCANIZATION, RUBBER, CURING, PEROXIDES, SULFUR, CALCIUM

Abstract

Calcium lignosulfonate in different loadings was applied to the rubber matrix based on EPDM. A sulfur curing system, organic peroxide, and a combination of organic peroxide with two coagent types were used for cross-linking of rubber compounds. The work was focused on the investigation of filler content and curing system composition in the curing process, cross-link density, morphology, and physical–mechanical properties of composites. The achieved results demonstrated that the curing parameters of rubber compounds cured with the sulfur system were significantly different from those cured with peroxide systems. There was also an observed different influence of curing systems composition on cross link density, though in all cases, the degree of cross-linking showed a decreasing trend with increasing content of lignosulfonate. The tensile strength of the composites cured with sulfur system and organic peroxide was comparable, regardless of lignosulfonate loading. This points to the application of both curing systems in cross-linking of rubber compounds with biopolymer filler. However, the introduction of coagents in peroxide vulcanization led to the improvement of adhesion and compatibility between the rubber and the filler on the filler–rubber interface. This subsequently resulted in the improvement of the tensile characteristics of composites. The introduction of organic peroxide in combination with coagent seems to be a very simple and efficient way for the preparation of biopolymer-filled composites with applicable physical–mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2022

6. Combined sulfur and peroxide curing systems applied in cross-linking of rubber magnets.

Author

Kruželák, Ján, Kvasničáková, Andrea, Dosoudil, Rastislav, Hudec, Ivan, and Vilčáková, Jarmila

Subjects

RUBBER, SULFUR, GLASS transition temperature, CURING, BARIUM ferrite, PEROXIDES, BARIUM

Abstract

In the present work, barium ferrite in constant loading was dosed to the rubber matrices based on NR, SBR and NBR. Sulfur, peroxide and mixed sulfur and peroxide curing systems were applied for cross-linking of rubber magnetic composites. The application of sulfur or peroxide curing system leads to the formation of different types of linkages between rubber chain segments. As the structure of the formed cross-links plays a significant role in determining the final properties of rubber articles, the main aim of the work was to use the combination of curing systems in order to suppress the disadvantages of both systems and possibly to highlight their benefits. The results showed that composition of curing system has considerable influence on cross-link density of composites, which was subsequently reflected in typical change of physical-mechanical properties and glass transition temperature. The tensile strength was improved with increasing amount of peroxide curing system. The reason can be attributed to the presence of co-agent zinc methacrylate, which exhibits strong adhesion to magnetic filler and thus it contributes to the improvement of compatibility and homogeneity on the interphase filler–rubber. On the hand, there was observed no influence of curing system composition or type of rubber matrix on magnetic characteristics of composites. [ABSTRACT FROM AUTHOR]

Published

2021

7. Influence of Combined Sulfur and Peroxide Curing Systems and Ageing on the Properties of Rubber Magnets.

Author

Kruželák, Ján, Kvasničáková, Andrea, Hložeková, Klaudia, Vilčáková, Jarmila, and Hudec, Ivan

Subjects

STYRENE-butadiene rubber, PEROXIDES, NITRILE rubber, STRONTIUM ferrite, RUBBER, SULFUR, CURING

Abstract

Strontium ferrite in constant loading is incorporated into acrylonitrile butadiene rubber in order to prepare rubber magnetic composites. Sulfur, peroxide and combined sulfur/peroxide curing systems are applied for cross‐linking of rubber composites. The work is focused on the investigation of curing system composition and thermo‐oxidative ageing on cross‐link density, physical‐mechanical and magnetic properties of rubber magnets. The results revealed that the cross‐link density and the structure of the formed cross‐links within the rubber matrices affect the property spectrum of vulcanizates. [ABSTRACT FROM AUTHOR]

Published

2021

8. Relationship between the cross-link structure and properties of peroxide and sulfur-cured magnetic composites based on NR and NBR.

Author

Kruželák, Ján, Sýkora, Richard, Dosoudil, Rastislav, and Hudec, Ivan

Subjects

PEROXIDES, COMPOSITE materials, POLYMER structure, POLYBUTADIENE, RUBBER, MAGNETIC materials, CROSSLINKING (Polymerization)

Abstract

In the present work, rubber magnetic composites were prepared by incorporation of strontium ferrite into rubber matrices based on natural rubber (NR) and acrylonitrile butadiene rubber (NBR). The sulfur and peroxide curing systems were introduced in cross-linking of rubber matrices. The research was aimed at the evaluation of magnetic filler content and type of curing system on the cross-link density, physical–mechanical and magnetic properties of prepared composites. The relationship between the composition of elastomers and cross-link structure within the rubber matrices, formed by applying different curing systems, was under investigation through strain–stress behavior of tested materials. The achieved results showed that ferrite behaves as a reinforcing filler in peroxide-cured composites based on NR, and in both, sulfur as well as peroxide-cured composites based on NBR. The results also demonstrated that the cross-linking degree and the type of cross-link structure as well as the composition of rubber matrices, to a large extent, influence the property spectrum of tested composite systems. [ABSTRACT FROM AUTHOR]

Published

2017

9. Rubber composites cured with sulphur and peroxide and incorporated with strontium ferrite.

Author

KRUŽELÁK, JÁN, DOSOUDIL, RASTISLAV, SÝKORA, RICHARD, and HUDEC, IVAN

Subjects

SULFUR, PEROXIDES, RUBBER, COMPOSITE materials, ACRYLONITRILE butadiene styrene resins

Abstract

In the present work, rubber magnetic composites were prepared by incorporation of strontium ferrite into rubber matrices based on natural rubber (NR) and acrylonitrile-butadiene rubber (NBR). Sulphur, peroxide and mixed sulphur/peroxide curing systems were introduced in cross-linking of rubber matrices. The aim was to investigate the influence of curing system composition on physical-mechanical, thermo-physical and magnetic properties of prepared rubber composites and the curing process. Then, the determination of cross-link density and the structure of cross-links were under consideration. The achieved results showed that all investigated parameters were changed depending on the composition of curing system, but also on the type of rubber matrix. While the tensile strength of composites based on NR increased with increasing amount of sulphur in mixed curing systems, in case of composites based on NBR, the highest value of tensile strength reached the value of the sample cured with equivalent ratio of sulphur and peroxide. On the other hand, thermo-physical and magnetic characteristics were found not to be dependent on the curing system composition. The results revealed that not only the composition of curing system, but also the type of rubber matrix plays an important role when preparing the final materials. [ABSTRACT FROM AUTHOR]

Published

2017

10. Influence of peroxide curing systems on the performance of natural rubber-based magnetic composites.

Author

Kruželák, Ján, Sýkora, Richard, Dosoudil, Rastislav, and Hudec, Ivan

Subjects

PEROXIDES, STRONTIUM ferrite, MAGNETIC fields, RUBBER, PERFORMANCE evaluation, CURING, FILLER materials

Abstract

Rubber magnetic composites were prepared by incorporation of strontium ferrite into natural rubber-based continuous matrix. The prepared rubber compounds have model character and besides the rubber and the filler, they contained only ingredients of peroxide curing system, dicumyl peroxide as curing agent, and ethylene glycol dimethacrylate as co-agent. The work was focused on the evaluation of curing system composition and magnetic filler content on curing process, cross-link density, physical–mechanical and magnetic properties of tested materials. The achieved results revealed that the evaluated properties are dependent on the composition of curing system and on the content of ferrite too. Ferrite incorporated in the rubber matrix imparts magnetic properties to the composites considerably. In addition, the improvement of physical–mechanical properties with doping content of ferrite was observed. [ABSTRACT FROM AUTHOR]

Published

2015

11. Peroxide vulcanization of natural rubber. Part II: effect of peroxides and co-agents.

Author

Kruželák, Ján, Sýkora, Richard, and Hudec, Ivan

Subjects

PEROXIDES, CROSSLINKING (Polymerization), RUBBER, VULCANIZATION, MECHANICAL behavior of materials

Abstract

Four types of peroxides in combination with two types of co-agents were used as cross-linking agents for the preparation of rubber compounds based on natural rubber. The effects of Type I and Type II co-agents on cross-linking and physical-mechanical properties of vulcanizates were investigated. The correlation between mechanisms of the interaction of co-agents with the rubber matrix in relation to the characteristics of tested systems was discussed. The results showed that the Type I co-agent influenced the rate and the state of cure. Physical-mechanical properties were improved by addition of the Type I co-agent. By contrast, the Type II co-agent had no contribution to the rate and state of cure. Moreover, physical-mechanical properties of vulcanizates deteriorated in the presence of this type of co-agent. [ABSTRACT FROM AUTHOR]

Published

2015

12. Magnetic composites based on natural rubber prepared by using peroxide and sulfur curing system.

Author

Kruželák, Ján, Sýkora, Richard, Dosoudil, Rastislav, and Hudec, Ivan

Subjects

MAGNETIC devices, CURING, RUBBER, SULFUR, PEROXIDES, CRYSTALLIZATION

Abstract

In this work, rubber magnetic composites were prepared by incorporation of strontium ferrite into elastomeric matrix based on natural rubber. Cross-linking of the rubbermatrix was performed by using sulfur and peroxide curing system. The study was aimed at the investigation of the type of curing systemand magnetic filler content on curing process and cross-link density of preparedmaterials. Then, the influence of both factors on physical-mechanical andmagnetic properties was observed. The obtained results demonstrate that sulfur-cured composites show better physical-mechanical properties, especially at lower content of strontium ferrite. With increasing amount of ferrite, the differences between the characteristics of both types of composites became less visible, while peroxide-cured sample with maximum ferrite content showed superior tensile strength in comparison with tensile strength of maximally filled sample cured with sulfur system. The obtained results demonstrate better compatibility between the rubber and the filler when peroxide system was introduced for cross-linking of the rubber matrix. [ABSTRACT FROM AUTHOR]

Published

2014

13. Peroxide vulcanization of natural rubber. Part I: effect of temperature and peroxide concentration.

Author

Kruželák, Ján, Sýkora, Richard, and Hudec, Ivan

Subjects

PEROXIDES, VULCANIZATION, RUBBER, CRYSTALLIZATION, LATEX

Abstract

Four different peroxides as curing agents were used to prepare vulcanizates based on natural rubber (NR). The effects of temperature and peroxide concentration on the vulcanization characteristics of rubber compounds, cross-link density ( ν) and physical-mechanical properties of equivalent vulcanizates were investigated. The results revealed that the vulcanization temperature and also the relative amount of peroxide decomposition products are of significant importance in the properties of vulcanizates. Lower vulcanization temperature and lower concentration of peroxides were found to be better factors, showing a proper balance between the degree of cross-linking of the rubber and degradation of the macromolecular chains by side reactions in relation to the crystallization of NR, which imparts vulcanizates based on NR outstanding properties. [ABSTRACT FROM AUTHOR]

Published

2014