STUDY OF THE CHEMICAL COMPOSITION OF MARGILAN NATURAL SILK FABRIC
Keywords:
macro- and microelements, inductively coupled plasma mass spectrometer.Abstract
Thus, for the first time, the elemental composition of samples of natural silk fabrics was studied in detail. To do this, we used the method of inductively coupled plasma mass spectrometry on an ICP-MS AT 7500 device. 44 elements were quantitatively determined in the elemental composition of tissue samples from natural silk. 43 elements were found in a mulberry leaf. It has been observed that 43 elements (B. more) are present in the silkworm. It turned out that the cocoon contains 41 elements, and silk - 41 elements. It was found that the silk fabric contains 26 elements, the Atlas fabric contains 39 elements and the Adras fabric 50% silk, 50% cotton fabric contains 39 elements. The natural tendency of the amount of the element to decrease with increasing mass is shown. It has been established that in natural silk fabrics there are hundreds and tens of thousands of times more macroelements than microelements.
References
A.A.Ibragimov, T. Sh.Amirova, A.A.Ibrokhimov. Certification and classification of tissues based on their biological properties and chemical composition. Universum: Chemistry and biology: Sci. Jorn. 2020. № 10 (76), оktober, p.10-14.
T.Amirova, A.Ibragimov, O.Nazarov. Coloring Natural Silk with Natural Dyes Obtained from Plants. Annals of the Romanian Society for Cell Biology, 2021, 7089–7093. Retrieved from https: //www.annalsofrscb. ro/index. Php /journal/ article/view/2225.
R.Yu.Milusheva, O.B. Avazova, S.Sh.Rashidova. Protein from pupae of the silkworm Bombix mori L. Tashkent, Fan, 2020, 216p. [Published in Russian]
Ermakov A.I., Arasimovich V.V. 1982. In the book: Methods of biochemical research of plants M. p. 430. [Published in Russian]
Smirnova E.V., Zarubina O.V. Determination of macro- and microelements in biological standard samples of plant and animal origin by inductively coupled plasma mass spectrometry // modern methods of analysis of substances and materials: mass spectrometry. Standard samples No. 3, 2014, pp. 45-57. [Published in Russian]
Muzgin V.N., Emelyanova N.N., Pupyshev A.A. Inductively coupled plasma mass spectrometry - a new method in analytical chemistry // Analytics and Control. 1998. No. 3-4. S. 3–25.
P. Masson, T. Dalix& S. Bussière Determination of Major and Trace Elementsin Plant Samples by Inductively Coupled Plasma–Mass Spectrometry // Communications in Soil Science and Plant Analysis. To cite this article: P. Masson , T. Dalix& S. Bussière (2010) Determination of Major and Trace Elements in Plant Samples by Inductively Coupled Plasma–Mass Spectrometry, Communications in Soil Science and Plant Analysis, 41:3, 231-243, DOI:
1080/00103620903460757To link to this article: https://doi.org/10.1080/0010362090346075
https://sostavproduktov.ru/produkt/shelkovica-poleznye-svoystva.
Назаров О.М., & Амирова Т.Ш. (2022). ОПРЕДЕЛЕНИЕ СОДЕРЖАНИЯ МАКРО-И МИКРОЭЛЕМЕНТОВ В РАЗЛИЧНЫХ ВИДАХ КОЖИ МЕТОДОМ МАСС-СПЕКТРОМЕТРИИ С ИНДУКТИВНО-СВЯЗАННОЙ ПЛАЗМОЙ. Главный редактор, 18.
Амирова, Т. Ш. (2022, June). Химический состав шелковых и шерстяных тканей. In Conference Zone (pp. 79-80).
Амирова, Т. Ш. (2022, April). ХИМИЧЕСКАЯ ПОДГОТОВКА ТКАНЕЙ ИЗ НАТУРАЛЬНОГО ШЁЛКА. In Conference Zone (pp. 137-138).
Каримова, Д.Б., Усманов, Н.Х.У. and Азимова, К.А.К., 2022. КОНТРОЛЬ КАЧЕСТВА ТЯЖЕЛЫХ МЕТАЛЛОВ В ЗУБНЫХ ПАСТАХ МЕТОДОМ ИСП-ОЭС. Universum: технические науки, (6-5 (99)), pp.9-12.
Ибрагимов, А. А., Амирова, Т. Ш., & Иброхимов, А. А. (2021). ХИМИЧЕСКИЙ СОСТАВ МАРГИЛАНСКОГО ШЁЛКА. Deutsche Internationale Zeitschrift für zeitgenössische Wissenschaft, (14), 12-15.
Ибрагимов, А. А., Амирова, Т. Ш., & Иброхимов, А. (2020). СЕРТИФИКАЦИЯ И КЛАССИФИКАЦИЯ ТКАНЕЙ НА ОСНОВЕ ИХ БИОЛОГИЧЕСКИХ СВОЙСТВ И ХИМИЧЕСКОГО СОСТАВА. Universum: химия и биология, (10-1 (76)), 10-13.
