doi: 10.1021/acs.jpcb.4c06661.
Epub 2024 Oct 25.
Non-Stoichiometric Effects on Viscoelasticity in DGEBA-EDA Systems: Insights from Brillouin Light Scattering
Affiliations
- PMID: 39449538
- PMCID: PMC11551945
- DOI: 10.1021/acs.jpcb.4c06661
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Non-Stoichiometric Effects on Viscoelasticity in DGEBA-EDA Systems: Insights from Brillouin Light Scattering
J Phys Chem B.
.
Abstract
The initial and final stages of the isothermal curing reaction between diglycidyl ether of bisphenol A and ethylenediamine were investigated by using Brillouin light scattering spectroscopy. High-frequency acoustic parameters were measured for these stages as a function of the diamine molar fraction, ranging from the pure prepolymer to the pure cross-linker. Significant differences in the concentration dependencies of the mechanical parameters are interpreted in relation to changes in the system's viscoelastic properties. At the final stage of the reaction, the concentration dependencies exhibit notable changes at two characteristic nonstoichiometric compositions─one corresponding to amine excess and the other to epoxy excess. While these concentrations align well with Flory's critical gel points, experimental evidence suggests they should instead be interpreted as vitrification points.
Conflict of interest statement
The author declares no competing financial interest.
Figures
Semilog plot of the Brillouin spectra recorded
at the initial (t = 0) and the final (t → ∞)
stage of polymerization reaction for the sample with xA = 0.33. Solid lines are the results of fitting with eq 2.
Concentration (amine molar fraction) dependence of the product
of hypersound velocity and refractive index, nvB, registered at the initial (full symbols) and the final (open
symbols) stages of polymerization. xA,1 and xA,2 are two critical gelation compositions. xA,Stoichio corresponds to the stoichiometric
composition. Lines are guides for the eye. Schematic representation
of molecular structures is shown in insets. At the beginning of the
reaction, the system is a homogeneous mixture. Formation of cross-links
translates to the nontrivial mechanical behavior.
Concentration (amine molar fraction) dependence of hypersound
attenuation,
αλB, registered at the initial (full symbols)
and the final (open symbols) stages of polymerization. Lines are guides
for the eye. Frequency dependencies of sound attenuation, αλB(ω), for selected compositions are schematically illustrated
within insets (scales are defined in the uppermost inset). The position
of the curve, with respect to BLS frequency, ωB (and
so the value of αλB measured), depends on the
actual dynamics (relaxation time, τ) of the system. It should
be noted that ωB is not strictly constant but also
depends on composition and bond conversion.
Hypersonic velocity (nvB—upper
panel) and its time derivative (dnvB/dt) as a function of polymerization reaction time (log scale)
for two mixtures being within or outside of xA,1 < xA ≤ xA,2 gelation range (xA = 0.50
and xA = 0.83, respectively). Notice how
the reaction stops drastically for the xA = 0.5 system.
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