In this paper, a technique useful for the classification of different food oil co-and byproducts of potential use for feed preparation is shown. The proposal is based upon a Fourier transform infrared evaluation of different classes of compounds, and its elaboration was carried out starting from the knowledge of the chemical composition of each feedstock category. Using this technique, a sure classification of fatty acid calcium soaps, fully hydrogenated fatty acids, lecithins, acid oils from chemical refining, acid oils from physical refining and fish oils can be easily done. The remaining categories of animal fats, fried oils and oils recovered from exhausted bleaching earth can be differentiated by using one or two additional chemical tests. The scope of this paper is to provide a quick, easy and non-expensive tool for a correct classification of feedstock, in order to allow the choice of correct and applicable analytical tests for the evaluation of the quality and of the composition of each sample.
The Accelerated Cyclic Electrochemical Technique (ACET), which has been adopted as the ISO 17463 standard, has attracted great attention in industry as a promising tool for the rapid assessment of paints and organic coatings on metallic substrates. The protocol consists of Electrochemical Impedance Spectroscopy (EIS) and Relaxation Voltammetry (RV) to observe the gradual degradation of a coated sample. The peculiarity of the test lies in the use of cathodic polarization (CP) as a major stress factor allowing a strong acceleration of failure and the quantitative evaluation of both water uptake and coating adhesion, within a limited test time. Indeed, ACET has been reported as a successful method for studying the effect of cure temperature, phosphate and ZMP pigments and surface pretreatments on the protective properties of painted systems. Moreover, a good agreement with conventional accelerated tests was shown.In this work, we confirm that the results of ACET on water uptake correlate well with Humidostatic Chamber (HC) tests performed in accordance to ISO 6270. Conversely, some disagreement is observed with Neutral Salt Spray (NSS) test ISO 9227. As a matter of fact, ACET can reproduce coating performance in NSS only if electrolyte can reach the substrate and cathodic delamination occurs. Accordingly, we highlight that the main limitation of ACET is how quick electrolyte reaches the substrate, so that this technique fails to classify high thickness and/or high resistive coatings.In the attempt to overcome this intrinsic shortcoming of the test, we propose the modification of ACET by using a sample with a 2×1 mm crosscut (sACET, where s stands for scribed), i.e. with a similar approach as in the REAP (Rapid Electrochemical Assessment of Paint) test. Results are illustrated in Figure 1 for two different coated systems (S1 and S2) tested in the NSS chamber for 720 h and by sACET for 6 cycles (inset). The delaminated area around the scratch was measured as 37 and 18 cm2 in NSS, 3.41 and 2.80 cm2 in sACET for S1 and S2, respectively, with a similar trend of increase in both tests. EIS measurements in the sACET protocol allow to track the gradual increase of delaminated area by the variation of charge-transfer resistance (Rct ) before and after subsequent degradation steps as shown in Figure 1c. Therefore, whenever the regular ACET test fails or is not able to provide reliable results, we recommend that scratched samples be used for the assessment of both coating water adsorption and adhesion strength. Figure 1
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