Thermal decomposition behavior of γ‐irradiated poly(vinyl acetate)/poly(methyl methacrylate) miscible blends

El‐Din, Horia M. Nizam; El‐Naggar, Abdel Wahab M.; Ali, Faten I

doi:10.1002/app.22707

Cited by 10 publications

(6 citation statements)

References 14 publications

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“…Mass losses between 300°C and 450°C and 550°C and 650°C come from decomposition of the binder. Polyvinyl acetate is reported to decompose thermally in two steps . The first leads to loss of acetic acid and the second results from decomposition of the resulting carbon chain.…”

Section: Resultsmentioning

confidence: 99%

Using Paint to Investigate Fires: An ATR‐IR Study of the Degradation of Paint Samples Upon Heating

Roberts

Almond

Bond

2012

Journal of Forensic Sciences

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Fire investigation is a challenging area for the forensic investigator. The aim of this work was to use spectral changes to paint samples to estimate the temperatures to which a paint has been heated. Five paint samples (one clay paint, two car paints, one metallic paint, and one matt emulsion) have been fully characterized by a combination of attenuated total reflectance Fourier transform infrared (ATR-IR), Raman, X-ray fluorescence spectroscopy and powder X-ray diffraction. The thermal decomposition of these paints has been investigated by means of ATR-IR and thermal gravimetric analysis. Clear temperature markers are observed in the ATR-IR spectra namely: loss of ν(C = O) band, >300°C; appearance of water bands on cooling, >500°C; alterations to ν(Si-O) bands due to dehydration of silicate clays, >700°C; diminution of ν(CO3 ) and δ(CO3 ) modes of CaCO3 , >950°C. We suggest the possible use of portable ATR-IR for nondestructive, in situ analysis of paints.

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Section: Resultsmentioning

confidence: 99%

Using Paint to Investigate Fires: An ATR‐IR Study of the Degradation of Paint Samples Upon Heating

Roberts

Almond

Bond

2012

Journal of Forensic Sciences

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“…This behavior indicated that thermal decomposition of these polymers passed through multiple stages, depending on the state of decomposition and not on the components. 19 As it can be seen, in the Figures 1 and 3(a) and (b) the third and fourth degradation regions were overlapped for Resin 1, and second and third degradation regions for Resin 3, which led to 2 simultaneously occurring process degradation with a total weight loss of 35.75% and 19.10%, respectively.…”

Section: Thermal Analysismentioning

confidence: 85%

Radiation stability of nanosilica-based urea–formaldehyde composite materials

Samaržija‐Jovanović¹,

Jovanović²,

Marković³

et al. 2011

Journal of Thermoplastic Composite Materials

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Three types of nanosilica-based urea-formaldehyde (UF) hybrid composite materials with a formaldehyde-to-urea (F/U) ratio of 0.8 were synthesized (UF with SiOThe thermal behavior of obtained materials was studied by nonisothermal thermogravimetric analysis (TGA), differential thermal gravimetry (DTG), differential thermal analysis (DTA) and differential scanning calorimetry (DSC) and supported by data from Fourier transform infrared spectroscopy (FTIR). Nanosilica-based UF hybrid composites have been irradiated (50 kGy) and after that their radiation stability was evaluated on the basis of thermal behavior. The percentage of free formaldehyde in all prepared samples was determined. DTG peaks of unmodified nanosilica-based UF resin (UF with SiO 2 ) are shifted to a high temperature. The minimum percentage values of free formaldehyde (3%) for samples based on UF with SiO 2 and UF þ SiO 2 þ TSC after irradiation dose of 50 kGy are detected.

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“…Note that the rate of the thermal decomposition reaction of all polymers, whether before or after cirradiation, showed more than one maximum with increasing temperature. This behavior indicates that the thermal decomposition of these polymers passes through multiple stages, depending on the state of decomposition and not on the components [49].…”

Section: Thermal Analysismentioning

confidence: 96%

Effect of γ-irradiation on the hydrolytic stability and thermo-oxidative behavior of bio/inorganic modified urea–formaldehyde resins

Petković¹,

Samaržija‐Jovanović²,

Jovanović³

et al. 2015

Composites Part B: Engineering

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Thermal decomposition behavior of γ‐irradiated poly(vinyl acetate)/poly(methyl methacrylate) miscible blends

Cited by 10 publications

References 14 publications

Using Paint to Investigate Fires: An ATR‐IR Study of the Degradation of Paint Samples Upon Heating

Using Paint to Investigate Fires: An ATR‐IR Study of the Degradation of Paint Samples Upon Heating

Radiation stability of nanosilica-based urea–formaldehyde composite materials

Effect of γ-irradiation on the hydrolytic stability and thermo-oxidative behavior of bio/inorganic modified urea–formaldehyde resins

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