Synthesis of Technical Carboxymethyl Cellulose with Increased Content of the Main Substance

  • M.K. Urozov Termez State University
  • M.G. Djurayev Termez State University
  • A.X. Raximov Termez State University
  • B.B. Ochildiyev Termez State University
Keywords: carboxymethyl cellulose, the level of viscosity of water, inhibitors, Monoapparat alkaline environment, the degree of polymerization, sand and cement

Abstract

It is known that a conventional cellulose ether Mecca CMC wide application in various industries, including the construction industry. CMC has a viscosity of the water used for the construction sector, heat tolerance positive.

References

1. Murodov M.M., Urozov M.К., Turdiboeva N.U., Khalikov М. Synthesis of Technology Carboxymethyl Cellulose With Increased Content of The Main Substance. Journal of Textile Science &Engineering, ISSN; 2165-8064, / USA/, Textile Sci Eng 2018, р. 2 of 2. 18; 9 DOI; 10.4172/2165 – 8064.1000374 (05.00.00 № 23)
2. Murodov M.M., Turdiboeva N.U., Urozov M.К. Development of the technology for Production of Cellulose From Plants of Saflora and Production of Carboxymethyl Cellulose on Its Basis. Journal of Textile Science&Engineering, ISSN; 2165-8064, / USA/, Textile Sci Eng 2018, 18;10 DOI; 10.4172/2165 – 8064.1000374 (05.00.00 № 23)
3. Murodov M.M., Muxitdinov U.D., Turdiboeva N.U., Urozov M.К. Comparative Researches of the Composition and Properties CMC In Different Degree of Polymerization. 2nd International Conference on Electrical Engineering and Automation (ICEEA2018). March 25-26, р.414-415. 2018, Chengdu, China.
4. Murodov M.M., Muxitdinov U.D., Turdiboeva N.U., Urozov M.К. Comparative of Degree of Stability to Thermal Destruction Na-CMC on a Basis Inhibitor to Sampes With Various Na-CMC. 2nd International Conference on Electrical Engineering and Automation (ICEEA2018). March 25-26, p. 416-417. 2018, Chengdu, China.
Published
2021-12-01
How to Cite
Urozov, M., Djurayev, M., Raximov, A., & Ochildiyev, B. (2021). Synthesis of Technical Carboxymethyl Cellulose with Increased Content of the Main Substance. International Journal on Orange Technologies, 3(11), 80-81. https://doi.org/10.31149/ijot.v3i11.2428
Section
Articles