期刊名称:Eastern-European Journal of Enterprise Technologies
印刷版ISSN:1729-3774
电子版ISSN:1729-4061
出版年度:2016
卷号:4
期号:11
页码:51-61
DOI:10.15587/1729-4061.2016.76105
语种:English
出版社:PC Technology Center
摘要:With the aid of the methods of photometry and electronic microscopy, we studied the sedimentation and aggregative stability of the lipidmagnetite suspensions (LMS). Different LMS were obtained. All suspensions are sufficiently stable over time. The best results in stability were displayed by suspensions, in which the ratio Fe3O4:SAS=0,02:0,35 g or 0,04 mass %:0,70 mass % and 0,025:0,35 g or 0,05 mass %:0,70 mass %. We determined size of the particles of magnetite with SAS. The order of mean particle size is defined – it amounts to ~76 nm.It was found that in the course of time (0–48,0 h) and with an increase in the wavelength (210–1000 nm), a gradual increase in the coefficient of transmission is observed from 25 % (210 nm) to 71,9 % (1000 nm) at 0 hours of exposure of the suspension: from 27,5 % (210 nm) to 81,2 % (1000 nm) at the maximum period of exposure of the suspension (48 hours).The indices of LMS are determined: concentration of the particles – N=1,43 1012 сm3, in 48 hours the concentration decreased by 20 % (N=1,19·1012 сm3); r=38 nm, n=1,48, k=0,01. The distribution function of the particles by size is rather narrow and symmetrical, which indicates that the system of the synthesized nanoparticles is homogenous with a low degree of polydispersity.The UV spectra of LMS and their components were taken and analyzed. The comparison of the spectra of transmission of suspensions with different degree of dilution testifies to chemical identity of the samples.The kinetic dependences of the coefficient of transmission for the suspensions with different concentration of magnetite (Fe(ov.).), were examined, based on which we calculated the effective mean radius of the particles of the stabilized magnetite: 76–168 nm. The mean radius of the particles in the lipid suspension of magnetite without stabilizer (reff)=400 nm. Visually, LMS manifested high aggregation stability at the total time of sedimentation reaching several tens of hours.It was established that LMS can be used as the biologicallyactive and food supplements, which possess the comprehensive action: beneficial biological effect on the human organism; due to the presence of bivalent iron in magnetite and capacity to form transition complexes with oxygen and peroxide radicals (and hydroperoxides), they manifest antioxidant activity, which leads to improvement in the quality and lengthening of the period of storage of the products that contain fat. Furthermore, LMS due to Fe2+ of magnetite can be recommended as the source of easily assimilated iron and as the antianemic means. Therefore, the introduction of LMS to the food products increases its quality, nutritional and biological value.
关键词:magnetite;photometry;electron microscopy;dispersibility;size and effective mean radius of particles;stabilization;magnetite suspension;surface active substance (SAS);sedimentation and aggregative stability
