Structure, thermal, optical and electrical investigation of the effect of heavy highly energetic ions irradiations in Bayfol DPF 5023 nuclear track detector

Structure, thermal, optical and electrical investigation of the effect of heavy highly energetic ions irradiations in Bayfol DPF 5023 nuclear track detector

The effects of 28GeV 56Fe ion irradiation on the structural, thermal, optical and electrical properties of Bayfol DPF 5023 have been investigated. Samples from Bayfol sheets have been irradiated using different Fe fluences in the range 1×1012 to 5×1015ion/cm2. The total energy deposited is between (...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) Vol. 97; pp. 68 - 74
Main Authors: Nouh, S.A., Radwan, Y.E., Elfiky, D., Abutalib, M.M., Bahareth, R.A., Hegazy, T.M., Fouad, S.S.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-04-2014
Subjects:
Color
DC conductivity
Polymers
Structural properties
Swift heavy ion irradiation
TGA
DC conductivity
Swift heavy ion irradiation
Polymers
Structural properties
Color
TGA
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Summary:The effects of 28GeV 56Fe ion irradiation on the structural, thermal, optical and electrical properties of Bayfol DPF 5023 have been investigated. Samples from Bayfol sheets have been irradiated using different Fe fluences in the range 1×1012 to 5×1015ion/cm2. The total energy deposited is between (28×1021eV and 14×1025eV). The resultant effect of Fe ion irradiation on the properties of Bayfol has been investigated using FTIR spectroscopy, intrinsic viscosity, Thermogravimetric Analysis TGA, refractive index, color changes, and DC conductivity. The results indicate that the Fe ion irradiation in the fluence range 1012–1015ion/cm2 led to a more compact structure of Bayfol polymer, which resulted in an improvement in its thermal stability with an increase in activation energy of thermal decomposition and crosslinking. This crosslinking enhanced the intrinsic viscosity of Bayfol from 0.58 to 0.89 at 35°C, indicating an increase in the average molecular mass. This was accompanied with an increase in refractive index. Further, the transmission of Bayfol samples in the wavelength range of 370–780nm, as well as any color changes, was studied. The color intensity ΔE was increased with increasing the Fe fluence, and was accompanied by a significant increase in the blue color component. •Fe ion irradiation led to a more compact structure of Bayfol with enhanced thermal stability.•Both average molecular mass and isotropic nature of Bayfol increased with irradiation.•The Bayfol samples showed significant color sensitivity toward Fe ion irradiation.•Fe ion irradiation provides mobile-free charge carriers that increase DC conductivity.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2013.10.017