139

In this article, the most important aspect in the field of application of woodpolymer composite materials obtained on the basis of local materials is the density of composite materials based on various fillers in terms of physical and mechanical properties that impose the greatest requirements on the material. in operation and precisely one of the requirements for wood raw materials, testing the resistance of wood materials to water and moisture, composites based on local wood waste and recycled polyvinyl chloride showed high positive results

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 08-11-2022
  • Количество прочтений 139
  • Дата публикации 30-09-2022
  • Язык статьиIngliz
  • Страницы211-214
English

In this article, the most important aspect in the field of application of woodpolymer composite materials obtained on the basis of local materials is the density of composite materials based on various fillers in terms of physical and mechanical properties that impose the greatest requirements on the material. in operation and precisely one of the requirements for wood raw materials, testing the resistance of wood materials to water and moisture, composites based on local wood waste and recycled polyvinyl chloride showed high positive results

Имя автора Должность Наименование организации
1 Aliev S.. teacher Toshkent chemical technological institute
2 Rakhmanberdiev G.. teacher Toshkent chemical technological institute
3 Sharafatdinov B.. researcher Toshkent chemical technological institute
Название ссылки
1 I.Z. Fayzullin. “Wood-polymer composite materials based on polypropylene and modified wood filler”, 2015. 123.
2 V.N. Volinskiy. Wood board technology. “Arkhangelsk State Technical University Publisher”, 2007. 301.
3 V.V. Glukhikh., N.M. Mukhin., A.E. Shkuro., V.G. Buryndin. Obtaining and using products from wood-polymer composites with thermoplastic polymer matrices Ekaterinburg: “Ural State Forestry University. Publisher”, 2014. 85
4 T.A. Ukhabina., T.V. Uchinina. The main trends in the development of the world and Russian market of wood-polymer composites and modeling the development of this segment in the Penza region. “Modern problems of science and education”, 2015.
5 E. Sherbinina. Production of wood-polymer composites. “Les Prom Inform”, 2016. 119.
6 I. Mavlyutov. “In Uzbekistan, for the first time launched the production of wood-polymer composites”, 2018.
7 E. Matyushenkova. Production of wood-polymer composites. “Les Prom Inform”, 2008. 56.
8 Z.N. Xin Razrabotka. “Development of PVC materials with improved technological and operational properties”, 2001. 94.
9 R.G. Safin., G.I. Ignatyva., I.M. Galiyeva. “The study of highly filled wood-polymer composite materials obtained by extrusion method”, 2013. 87
10 F.A. Magrupov., I.M. Alimov., S.M. Turabdjanov. Highly filled polyolefin compositions. Raw materials and auxiliary materials. “Plastic masses”, 2016. 42.
11 S.W. Hwang., H.H. Jung., S.H. Hyun., Y.S. Ahn. Effective preparation of crack-free silica aerogels via ambient drying. “Journal of Sol Gel Science and Technology”, 2007. 139
12 . N.L. Thomas., R.P. Eastup., J.P. Quirk. Aspects of Formulation Technology of Rigid Polyvinyl chloride. “Foam, plastics, rubber and composites: processing and applications”, 1997. 47.
13 SNiP 21-01-97 Fire safety buildings and constructions. On the adoption of state building codes "Fire safety of buildings and structures. “Ministry of Construction of the Russian Federation dated”, 1997
14 GOST R 52490 – 2005. Paintwork materials. Calorimetry. Part 3. Calculation of color differences. This standard, which is one of a series of standards for calorimetry, applies to paints and varnishes and establishes an instrumental method for determining the color characteristics and color differences of pigments, pigmented paints and coatings. “Standard inform Publisher”, 2007. 8.
15 P.A. Moroz., A.A. Askadskiy., T.A. Maseevich. The use of secondary polymers for the production of wood-polymer composites. “Plastic recycling”, 2017. 56.
В ожидании