Measuring the Reaction Kinetics of Polyester/PCA-501(HAA) Powder Coatings With Dielectric Analysis (DEA)
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1 Measuring the Reaction Kinetics of Polyester/PCA-501(HAA) Powder Coatings With Dielectric Analysis (DEA) Dr. Georgi Beschiaschvili and Liselotte Tanner; and Manfred Wenzler, November 6, 2003 Figure 1a Differential Scanning Calorimetry Isothermal Cross-linking of Copolyester/TGIC at 165 Thermosetting powder coatings only achieve optimal properties after they are completely cured. The degree of cure is important because it influences the mechanical properties, the corrosion resistance and weathering resistance of the final powder coating. Knowledge of the reaction rate and reaction kinetics is therefore of significant practical use. For typical thermosetting materials, the chemical reaction taking place during cross-linking is exothermic, and the reaction can be followed using differential scanning calorimetry (DSC). Figure 1b Dielectric Analysis Isothermal Cross-linking of Copolyester/TGIC at 165
2 The enthalpy of reaction for the cross-linking of PCA-501(HAA) with carboxyl polyester is very low. It is not possible to determine the progress of this reaction using DSC techniques. Until recently this was a handicap. Determination of the degree of cure was only possible by measuring the development of the mechanical properties of PCA-501(HAA) coatings for example, slow penetration and impact resistance. In comparison to DSC methods, the accuracy of measuring mechanical properties is very poor and not at all suitable for coatings of limited flexibility, such as super-durable polyester powder coatings. Dielectric analysis (DEA) has been used since the mid 1930s for the analysis of various polymeric materials. In the last few years, DEA has been used increasingly for epoxy resin systems. Figure 2 DSC vs.dea Degree of Conversion:Copolyester/TGIC PowderCoatings In this study, the reaction kinetics and the overall thermodynamics of copolyester/pca-501(haa) cross-
3 linking were investigated by using DEA. The use of DEA for char-acterising the reaction kinetics of PCA- 501(HAA) powder coatings was verified by conducting comparison measurements on a polyester/triglycidylisocyanurate (TGIC) powder coating using both DEA and DSC techniques. Material and Apparatus PCA-501 (Bis-N,N-Dihydroxyethyladipamide) Carboxyl polyester with acid value 30, UCB Chemicals Polyester/TGIC and polyester/pca-501 powder coatings Dielectrometer TA 2970, TA Instruments GmbH Differential Scanning Calorimeter, Polymer Laboratories Method The powder coating sample was applied to the sensor with a spatula at room temperature. The coated sensor was then placed in the DEA kiln and raised quickly to the required temperature (within approximately 5 minutes). The resulting cross-linking reaction was investigated at dif-ferent temperatures using a ceramic single-surface sensor isotherm. The measurements were made under a nitrogen atmosphere. Dielectric Analysis Figure 3 Dielectric Analysis Isothermal Cross-linking of Copolyester/PCA-501(HAA) at 150 and 200
4 With Dielectric Analysis the real component e' and the imaginary component e" of the complex dielectric constant e*= e - ie are determined in relationship to temperature and the frequency of the alternating electric field. The real component e' is proportional to the reversible stored energy, and the imaginary component (or loss factor) e" is proportional to the dissipated energy resulting from the rotation of polar groups. The PCA-501(HAA) cross-linking reaction was traced by following the ionic conductivity s:s = e" 2P f eo where f is the frequency in Hz of the alternating electric field and eo is the dielectric constant (8.85*10-12 F/m). Ionic conductivity results from the presence of ionic impurities in the system (e.g. inorganic and organic salts) and is dependent on the viscosity of the sample. If the concentration of the ionic impurities remains constant during the cross-linking reaction, the ionic conductivity makes an ideal parameter for following the changes in viscosity that occur during cross- linking (1). Starting with an uncured powder coating, the ionic conductivity increases rapidly with increasing temperature, as the powder first sinters and then melts. With the onset of cross-linking, the viscosity of the powder coating increases with a resulting parallel decrease in ionic conductivity. This process continues until the reaction is complete and the coating fully cured. The change in ionic conductivity during the isothermal cross-linking reaction is used to determine the degree of conversion a as a function of time. The loss factor e" is composed of two components: e" = s/2p f e0 + e"d where e"d is the component of the loss factor e" caused by dipole relaxation losses. If DEA measurements are made at low frequency, under these conditions, the dipole relaxation component e"d is negligible and the loss factor e" is de-termined completely by the ionic conductivity (2,3). Results of Copolyester/TGIC Cross-linking Figures 1a and 1b illustrate the isothermal cross-linking of copolyester/tgic as measured with DSC and with DEA at 165 C. With DSC the change in enthalpy was recorded, whereby with DEA the change in ionic conductivity was measured. Control measurements were made on the copolyester resin without cross-linker. The degree of conversion measured as a function of time by DSC is given by Equation 1:
5 Figure 4 Dielectric Analysis Degree of Conversion: Copolyester/PCA-501(HAA) Powder Coatings a (t) = H(t)/H0 where H(t) is the reaction enthalpy as a function of time and H0 is the total reaction enthalpy. A very good correlation between DSC and DEA is achieved if the degree of conversion measured against time by DEA is calculated using Equation 2: a (t) = {s(0)- s(t)}/{ s(0)- s(`)} where s(t), s(0) and s(`) are the corresponding values of ionic conductivity at a time (t), at the beginning of the reaction (0) and at the end of the reaction (`). From a comparison of the two results (Figure 2), it can be seen that the two curves are very similar. Taking into account the accuracy of the two test methods, the curves can be considered virtually identical. This indicates a very good correlation between the two analytical techniques. The proposed process to determine the conversion curve of the cross-linking reaction from DEA measurements (Equation 2) assumes a linear relationship between the ionic conductivity s and the degree of conversion a. The functional relationship between the degree of conversion and the ionic conductivity s is given in the literature by Equation 3: a = k log s + C (where k and C are constants) (4). Very good correlation has been observed between the DEA and DSC techniques based on a linear relationship between the ionic conductivity and degree of conversion. Results of Copolyester/PCA-501(HAA) Cross-linking
6 Figure 5 Dielectric Analysis Determination of the Kinetic Parameters(k & n) The changes in ionic conductivity with isothermal cross-linking of the PCA-501 powder coatings at two different temperatures, 150 C and 200 C, are shown in Figure 3. The conversion curves of the PCA- 501(HAA) cross-linking reaction at three different temperatures, as calculated using Equation 2, are shown in Figure 4. At 200 C, 99% conversion is reached after 5 minutes, whereas at 150 C the conversion after 5 minutes is only 68%. The reaction profile of the powder coating cross-linking is represented by the following nth order kinetic Equation 4: da(t)/dt = k{1-a(t)} whereby, da(t)/dt is the reaction rate, n is the order of the reaction and k the appropriate rate constant. The rate constant is dependent on temperature as given by the relationship (Arrhenius Equation 5) k = A exp (-Ea/RT) The kinetic parameters, namely the pre-exponential factor (A) and the activation energy (Ea), could be determined by plotting Ln (k) against the reciprocal of the absolute temperature (1/T). The rate constant k and the reaction order were determined by plotting log (da(t)/dt) against log (1- a(t)). The resulting curve was a straight line with a gradient n. The corresponding rate constant could then be determined by extrapolating log (1-a(t)) to zero. The plots of log (da(t)/dt) against log (1-a(t)) for three temperatures are illustrated in Figure 5. The
7 plotted values for the different temperatures lie on parallel gradients, thus confirming the validity of the proposed kinetic equations (Equations 4 and 5). The gradients of all three lines gave a reaction order n=1.4. Having determined the reaction rate, both the activation energy (Ea) and the pre-exponential factor could be estimated using the Arrhenius equation and the plot of ln k against 1/T. The results of the kinetic analysis were as given in Table 1. Conclusion The reaction kinetics of polyester/ PCA-501(HAA) was investigated by monitoring changes in ionic conductivity, with the ionic conductivity being directly influenced by the viscosity of the system. During cross-linking the viscosity of the coating increases resulting in a corresponding decrease in ionic conductivity. Comparative tests made with a polyester/tgic powder coating using both DSC and DEA techniques resulted in a very good correlation between the two techniques. The results depicted in Figures 2 and 3 prove that DEA is a suitable method for assessing the conversion rate of polyester/pca-501 powder coatings. DEA provides an accurate and reproducible method for measuring the reaction kinetics of polyester/ PCA-501(HAA) powder coatings. From the results of DEA, precise predictions about the required curing conditions (i.e. time and temperature) can be made. References 1. N.T. Smith and D.D. Shepard, European Coatings Journal, , (1995) 2. D.R. Day, Polymer Engineering and Science, 29, , (1989) 3. K.A. Nass and J.C. Seferis, Polymer Engineering and Science, 29, , (1989) 4. R.H. Kienle and H.H. Race, Trans. Elektrochem. Soc., 65, 87 (1934)
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