Analysis of Poly(2-Hydroxyethyl~Methacrylate)-co- Poly(4-Vinyl Pyridine) Copolymers [COP2,4] Irradiated: an EPR study

Ceylan, Yusuf; Aydoğmuş, Hacer Yumurtacı; Usta, K.; Usta, Ayhan; Ceylan, N.; Yılmaz, Haşim

doi:10.12693/aphyspola.130.167

Cited by 3 publications

(3 citation statements)

References 21 publications

(17 reference statements)

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“…By preventing the rapid consumption of limited natural resources, these by-products will also provide the production of more inexpensive materials of higher quality than the traditional ones [1][2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

et al. 2017

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Having symmetrical and balanced material properties, polymer matrix composites are increasingly becoming popular due to easiness of construction and are use in the production of aerospace and automotive structures. In the study, we developed polymer composites based on epoxy resins, containing up to 40 wt.% of blast furnace slag and determined their pin-on-disc dynamic friction, wear, Shore hardness and surface roughness values. Wear tests were performed using a pin-on-disc under dry friction conditions, at the loads of 5, 10, 15 and 30 N, using slip velocity of 0.3 m/s and along distance of 500 m. The hardness and wear resistance values increased with the increase in the content of blast furnace slag. Showing the relationship between wear rate and hardness, an equation with parameters dependent on load was provided. There was an increase in the dynamic friction with an increase in the surface roughness. In addition, dynamic friction was an increasing function of the wear rate. The wear surfaces of the polymer composites were analyzed using scanning electron microscopy. It was observed that the wear rate of the epoxy composites and pure epoxy samples ranged from 19.85 to 171.42 mm 3 /N m.

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Section: Introductionmentioning

confidence: 99%

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

et al. 2017

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“…Polymer structures are attractive due to their mechanical, optical, electrical and biomedical properties [1]. Among them ultra high molecular weight polyethylene (UHMWPE) is widely used in orthopedic implants, like hip joint replacement prostheses, because of its excellent characteristics, such as high wear and abrasion resistance, chemical inertness and biocompatibility [2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Characterization of UHWPE-TiO₂ Composites Produced by Gelation/Crystallization Method

2017

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In this study, ultra-high molecular weight polyethylene (UHMWPE) -TiO2 composites reinforced with TiO2 particles with weight ratios of 0.5, 1 and 2% were produced by gelation/crystallization method in decalin+antioxidant solution of UHMWPE at 150• C, for 40 min by using magnetic stirrer. The gel mixture was cooled in an aluminum tray embedded in iced water under ambient conditions and dried in an oven at 130• C for 90 min to remove any residual trace of decalin. Distribution and elemental analyses of TiO2 particles in polymer matrix was examined by SEM-EDS. Crystallization behavior was investigated by differential scanning calorimetry (DSC). Based on the results, TiO2 particles in the UHMWPE have accelerated the crystallization, acting as nucleating agents, with increment from 56% for UHMWPE to 63.5% for UHMWPE-2 wt% TiO2. The present bond types in composites were analyzed by Raman spectroscopy and the results are in good agreement with literature. Uniaxial tensile tests were performed to determine Young's modulus of UHMWPE-TiO2 composites. It was found that Young's modulus of UHMWPE was increased from 52 MPa to 800 MPa with the addition of TiO2 particles.

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“…Therefore, it is important to identify radical structures produced by irradiation. EPR is a powerful spectroscopic method for detecting radicals in the materials [7][8][9][10][11][12][13][14][15][16][17][18]. In this study, Calix [4]arene, labeled calix [4]arene (1), and 25,27-di(4-nitrobenzyl)-26,28-dihydroxycalix [4]arene, labeled calix [4]arene(2), were exposed to gamma rays and then radical structures of these calix [4]arenes were evaluated by EPR method.…”

Section: Introductionmentioning

confidence: 99%

Comparative Study of Influences of Gamma Rays on Calix[4]Arene and 25,27-di(4-Nitrobenzyl)-26,28-Dihydroxycalix[4]Arene: EPR Study

et al. 2017

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In the present study, calix [4]arene and its derivate 25,27-di(4-nitrobenzyl)-26,28-dihydroxycalix[4]arene were irradiated for 72 hours by 60 Co gamma rays at dose rate of 0.720 kGy/h. These irradiated samples were analyzed by EPR method and it was found that one type of radical was produced in calix[4]arene, and two type of radicals were produced in 25,27-di(4-nitrobenzyl)-26,28-dihydroxycalix[4]arene. The measurements were performed in the temperature range of 273-400 K using x-band EPR spectrometer. It was observed that the spectra, obtained from two samples, have very weak temperature dependence. Hyperfine and g parameters were calculated for two samples.

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Analysis of Poly(2-Hydroxyethyl~Methacrylate)-co- Poly(4-Vinyl Pyridine) Copolymers [COP2,4] Irradiated: an EPR study

Cited by 3 publications

References 21 publications

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

Characterization of UHWPE-TiO₂ Composites Produced by Gelation/Crystallization Method

Comparative Study of Influences of Gamma Rays on Calix[4]Arene and 25,27-di(4-Nitrobenzyl)-26,28-Dihydroxycalix[4]Arene: EPR Study

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Analysis of Poly(2-Hydroxyethyl~Methacrylate)-co- Poly(4-Vinyl Pyridine) Copolymers [COP2,4] Irradiated: an EPR study

Cited by 3 publications

References 21 publications

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

Investigation of Wear Strength of Blast Furnace Slag Blended Polymer Materials

Characterization of UHWPE-TiO2 Composites Produced by Gelation/Crystallization Method

Comparative Study of Influences of Gamma Rays on Calix[4]Arene and 25,27-di(4-Nitrobenzyl)-26,28-Dihydroxycalix[4]Arene: EPR Study

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Characterization of UHWPE-TiO₂ Composites Produced by Gelation/Crystallization Method