MASHAR POYASI SELLYULOZASI ASOSIDA TIBBIY GIPS UCHUN FARMATSEVTIK SIFATDAGI NATRIY KARBOKSIMETILSELLYULOZA (NA-CMC) OLISH VA TOZALASH TEXNOLOGIYASINI ISHLAB CHIQISH

Maqola Yon paneli

PDF (inglizcha) Acceptance Certificate
Nashr etilgan: 29.06.2026
DOI: https://doi.org/10.70769/3030-3214.SRT.4.2.2026.30
Kalit so‘zlar:
Na-CMC, mashar poyasi, sellyuloza, etanol ekstraksiyasi, tibbiy gips, XRD tahlili, fizik-kimyoviy xossalar

Maqolaning Asosiy Qismi

Sattorov, L.X.
Karshi State Technical University image/svg+xml
Kurbanov, A.A.
Buxoro davlat texnika universiteti image/svg+xml
Rahmatov, X.B.
Karshi State Technical University image/svg+xml
Jurayeva, H.Z.
Iqtisodiyot va pedagogika universiteti

Annotatsiya

Ushbu tadqiqotda mahalliy qishloq xoʻjaligi xom ashyosi – mashar poyasi sellyulozasi asosida tibbiyot sohasi, xususan, tibbiy gips ishlab chiqarish uchun moʻljallangan yuqori tozalikdagi natriy karboksimetilsellyuloza (Na-CMC) olish texnologiyasi ishlab chiqildi. Texnik Na-CMC ning tozalash jarayoni 53% etil spirti muhitida ekstraksiyalash usuli yordamida amalga oshirildi hamda ekstraksiya davomiyligining mahsulot sifati va asosiy modda miqdoriga taʼsiri oʻrganildi. Tadqiqot natijalariga koʻra, ekstraksiyaning optimal davomiyligi 40 minutni tashkil etib, bunda asosiy modda miqdori 99% ga yetdi. Olingan Na-CMC namunalarining fizik-kimyoviy xossalari, jumladan, almashinish darajasi, qovushqoqligi, suvda eruvchanligi va pH koʻrsatkichlari aniqlandi hamda amaldagi texnik talablar bilan taqqoslandi. Rentgen difraksion (XRD) tahlili sellyulozaning Na-CMC ga muvaffaqiyatli aylanganligini tasdiqladi. Tadqiqot natijalari mashar poyasi sellyulozasining farmatsevtik sifatdagi Na-CMC ishlab chiqarish uchun istiqbolli mahalliy xom ashyo ekanligini koʻrsatdi.

Yuklab olishlar

Yuklab olish ma’lumotlari hali mavjud emas.

Maqola Tafsilotlari

Son

Jild 4 № 2 (2026)

Bo‘lim

Kimyoviy texnologiya va qurilish
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Ommaviy Litsenziya Shartlari
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O‘zbekiston Respublikasi qonunchiligiga muvofiq quyidagi shartlar taqdim etiladi:

  1. Mualliflik huquqi:
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    Ushbu maqola Creative Commons Attribution 4.0 International (CC BY 4.0) litsenziyasi asosida tarqatiladi. Bu shuni anglatadiki, foydalanuvchilar ushbu maqolani quyidagi shartlarda qayta ishlatishlari, bo‘lishishlari va qayta ishlashlari mumkin:

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Muallif biografiyalari

Sattorov, L.X., Karshi State Technical University

Dotsent, Qarshi davlat texnika universiteti, Qarshi, O‘zbekiston

Kurbanov, A.A., Buxoro davlat texnika universiteti

Professor, Buxoro davlat texnika universiteti, Buxoro, O‘zbekiston

Rahmatov, X.B., Karshi State Technical University

Professor, Qarshi davlat texnika universiteti, Qarshi, O‘zbekiston

Jurayeva, H.Z., Iqtisodiyot va pedagogika universiteti

O‘qituvchi, Iqtisodiyot va pedagogika universiteti, Qarshi, O‘zbekiston

Iqtibos keltirish tartibi

Sattorov, L. X., Kurbanov, A. A., Rahmatov, X. B., & Jurayeva, H. Z. (2026). MASHAR POYASI SELLYULOZASI ASOSIDA TIBBIY GIPS UCHUN FARMATSEVTIK SIFATDAGI NATRIY KARBOKSIMETILSELLYULOZA (NA-CMC) OLISH VA TOZALASH TEXNOLOGIYASINI ISHLAB CHIQISH. Sanoatda Raqamli Texnologiyalar, 4(2). https://doi.org/10.70769/3030-3214.SRT.4.2.2026.30

Adabiyotlar ro‘yxati

[1] Murodov, M. M. (2011). Technology of making cellulose and its ethers by using raw materials. In Renewable Wood and Plant Resources: Chemistry, Technology, Pharmacology, and Medicine (pp. 142–143). Proceedings of the International Conference, Saint Petersburg, Russia.

[2] Murodov, M. M. (2011). The technology of making carboxymethylcellulose (CMC) by monoapparatus method. In Renewable Wood and Plant Resources: Chemistry, Technology, Pharmacology, and Medicine (pp. 141–142). Proceedings of the International Conference, Saint Petersburg, Russia.

[3] Cabinet of Ministers of the Republic of Uzbekistan. (2020). Resolution No. 520: On measures for the construction of fast-growing and industrial Pavlovnia tree plantations in the Republic.

[4] Xalq So‘zi. (2020). Hududlarda pavlovniya plantatsiyalari tashkil qilinadi. https://xs.uz/uzkr/post/hududlarda-pavlovniya-plantatsiyalari-tashkil-qilinadi

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[6] Murodov, M. M., Rahmanberdiev, G. R., Khalikov, M. M., Egamberdiev, E. A., Negmatova, K. C., Saidov, M. M., & Mahmudova, N. (2012). Endurance of high molecular weight carboxymethylcellulose in corrosive environments. AIP Conference Proceedings, 1459(1), 309–311.

[7] Murodov, M. M., Yusupova, N. F., Urabjanova, S. I., Turdibaeva, N., & Siddikov, M. A. (2021). Obtaining PAC from the cellulose of plants of sunflower, safflower, and waste from the textile industry.

[8] Murodov, M. M., Yusupova, N. F., Urabjanova, S. I., Turdibaeva, N., & Siddikov, M. A. (2021). Obtaining a PAC from the cellulose of plants of sunflower, safflower and waste from the textile industry. European Journal of Humanities and Educational Advancements, 2(1), 13–15.

[9] Murodov, M. M., Xudoyarov, O. F., & Urozov, M. Q. (2018). Technology of carboxymethylcellulose production using local raw materials. Advanced Engineering Forum, 8–9, 411–412.

[10] Primkulov, M. T., Rahmonberdiev, G. R., Murodov, M. M., & Mirataev, A. A. (2014). Processing technology of cellulose-containing raw materials (pp. 28–29). Uzbekistan National Society of Philosophers Publishing House.

[11] Rahmanberdiyev, G. R., & Murodov, M. M. (2011). Development of a technology for obtaining cellulose from Jerusalem artichoke plants. Economics and Innovative Technologies, 2, 1–11.

[12] Elievich, C. L., Khasanovich, Y. S., & Murodovich, M. M. (2021). Technology for the production of paper composites for different areas from fiber waste.

[13] Murodovich, M. M., Qulturaevich, U. M., & Mahamedjanova, D. (2018). Development of technology for the production of cellulose from tissue plants and obtaining Na-carboxymethylcellulose based on it. JournalNX, 6(12), 407–411.

[14] Rahmonberdiev, G., Murodov, M., Negmatova, K., Negmatov, S., & Lysenko, A. (2012). Effective technology for obtaining carboxymethyl cellulose from annual plants. Advanced Materials Research, 413, 541–543.

[15] Murodovich, M. M., Murodovich, H. M., & Qulturaevich, U. M. (2020). Obtaining technical carboxymethylcellulose increased in the main substance. ACADEMICIA: An International Multidisciplinary Research Journal, 10(12), 717–719.

[16] Murodovich, M. M., Qulturaevich, U. M., & Mahamedjanova, D. (2020). Comparative research of the composition and properties of CMC in different degrees of polymerization. JournalNX, 6(12), 412–415.

[17] Yuldasheva, G. I., & Teshabayeva, O. N. (2020). Development of the digital economy of the Republic of Uzbekistan. Universum: Economics and Jurisprudence, 7(72), 4–6.

[18] Teshabaeva, O., Yuldasheva, G., & Yuldasheva, M. (2021). Development of electronic business in the Republic of Uzbekistan. Internauka, 3(3), 16–18.

[19] Yuldasheva, G. I. (2022). Advantages of the credit-module system in the field of education. International Journal of Social Science & Interdisciplinary Research, 11, 14–16.

[20] Yuldasheva, M. (2021). Effective management of investment activity in information and communication technologies of Uzbekistan. Student Bulletin, 3(4), 11–13.

[21] Shermatova, G. Y. H. (2022). Use of information technologies in teaching exact sciences. Scientific Progress, 3(1), 372–376.

[22] Yuldasheva, G. I., & Shermatova, K. M. (2021). The use of adaptive technologies in the educational process. Economics and Society, 4(1), 466–468.

[23] Khudayarova, S. I. (2022). Features of morphological leaf formation in Citrus limon L. in sheltered places. Stability and Leading Research Online Scientific Journal, 15–18.

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