Address: 17 Naberezhnaya Severnoy Dviny, Arkhangelsk 163002 Russian Federation. Northern (Arctic) Federal University named after M.V.Lomonosov. Office 1425
Phone / Fax: (818-2) 21-61-18 Archive |
These works are licensed under a Creative Commons Attribution 4.0 International License. A.A. Leonovich, T.N. Voytova Complete text of the article:Download article (pdf, 0.4MB )UDС674.815DOI:AbstractWood particle boards, as well as the construction and finishing materials based upon wood particle boards are traditionally used in increasing volumes in the construction works and furniture industry. The limitations prescribed in Russia are connected with the maximum permissible concentration of uncombined formaldehyde (СН2О) in the living space. One of the possible ways of solutions of this problem is the using of acceptors. The main idea of this paper was researching the effectiveness of new acceptor – modified amidophosphate, serving to reduce СН2О content in the wood particle boards products without loss of base indices. The acceptor adhesive interaction influence in wood particle boards has been studied. The selection of overall product consumption is carried out. It has been established that the use of suggested acceptor will make it possible to produce wood particle boards with СН2О content less than 4 mg/100 g abs. dry board. This ratio of СН2О is permissible to use wood particle boards in the manufacturing of the kids furniture and furniture for medical and educational institutions as well as for the conformance to the requirements of the leading foreign companies. The experimental-industrial output of board batch in volume 250 m3 is carried out in the department Cherepovetsky PFGE at the press «Dieffenbacher». The characteristics of the manufactured production, corresponded to the standards at the base indices and СН2О content are reported. The optimum expense of acceptor is established.AuthorsA.A. Leonovich1, Doctor of Engineering, Professor, T.N. Voytova1,2, Postgraduate Student, Deputy ManagerAffiliation1Saint-Petersburg State Forest Technical University named after S.M. Kirov, 2CJSC «Cherepovetsky Plywood-Furniture Group of Enterprises» ::: 1 Institutskij lane, 5, Saint-Petersburg, 194021, Russia; е-mail: wood-plast@mail.ru 2 Proezzhaya str., 4, Cherepovets, Vologda region, 162604, Russia; е-mail: voytova@list.ruKeywordsFormaldehyde, acceptor, рarticle boards, strength, adhesion, urea-formaldehyde binder.References1. Anokhin А.Е. Snizhenie toksichnosti mebeli [Reducing of Furniture Toxicity]. Мoscow, 2002. 111 p. 2. Gamova I.А., Nghuen Tkhi Min Fiong. Ispol'zovanie vysokomolekuljarnyh akceptorov formal'degida dlja snizhenija toksichnosti MDF [The Use of High-Molecular Formaldehyde Acceptors for MDF Board Toxicity Abatement]. Sostojanie i perspektivy razvitija proizvodstva drevesnyh plit: Sb. dokl. Mezhdunar. nauch.-prakt. konf. [Соnditions and Development Prospect of Particle Board Production: Outline Reports of the Internat. Theor. and Pract. Conf., March 19–20, 2008]. Balabanovo, 2008. pp. 29–33. 3. GOST 14231–88. Smoly karbamidoformal'degidnye. Tehnicheskie uslovija [State Standart 14231 – 88. Urea-Formaldehyde Resins. Technical Standarts]. Moscow, Publ. of Standarts, 1989. 3 p. 4. GOST 10632–2007. Plity drevesnostruzhechnye. Tehnicheskie uslovija [State Standart 10632 – 2007. Particle Board. Теchnical Standarts]. Moscow, Standartinform, 2007. 15 p. 5. GOST 32155–2013. Plity drevesnye i fanera. Opredelenie vydelenija formal'degida metodom gazovogo analiza [Particle Board and Plywood. Determination of Formaldehyde Release by Gas Analysis Method]. Moscow, Standartinform, 2013. 5 p. 6. Dolgikh О.L., Leonovich А.А. Ispol'zovanie produktov sinteza karbamida s ortofosfornoj kislotoj v kachestve akceptorov formal'degida [The Use of Carbamide and Phosphoric Acid Synthesis Product as Formaldehyde Acceptors]. Biologicheskoe raznoobrazie, ozelenenie, lesopol'zovanie: sb. mat. mezhdunar. nauch.-prakt. konf. molodyh uchenyh SPbGLTA. [Biodiversity, Landscaping and Forest Management: Outline Reports of the Inerenat. Theor. and Pract. Conf. of the Young Scientists of SPbSFTA, November 11–12, 2008]. St.-Petersburg, 2009. pp. 172–182. 7. Leonovich A.A., Sheloumov A.V. Poluchenie ognezashhishhennyh drevesnovoloknistyh plit s ispol'zovaniem fosforamida FKM [Obtaining Flame-Resistant Fiberboards Using Phosphoramide FKM]. Izv. vissh. ucheb. zavedeniy. Lesnoy zhurnal, 2014, no. 2, pp. 101–108. 8. Leonovich A.A., Shpakovskij V.G. Drevesnostruzhechnye plity: ognezashhita i tehnologija: monogr. [Wood Particle Boards: Flame Retardance and Technology: Monograph]. St.-Peterburg, 2012. 160 p. 9. Leonovich A.A. Antipiren i sposob ego prigotovlenija [The Way to Obtain Antipyrene (Fire-Retarding Agent)]. Patent RF, no. 517491. 10. Hatilovich A.A., Belopukhova V.G., Krotova S.A., Rilo R.P., Samohvalov E.P. Akceptor formal'degida [Formaldehyde Acceptors]. Patent RF. no. 2059456, 1996. 11. Dejneko D.V., Seliverstov V.Zh., Nazarenkov A.A., Pankratov B.A., Bam B.D., Matjushin I.T., Zharavin V.D., Anokhin A.E. Sposob proizvodstva drevesnostruzhechnyh plit [The Way of Production of Particle Boards]. Patent RF, no. 2145280, 2000. 12. Puchkov B.V., Strelkov V.P., Belopukhova V.G., Krotova S.A., Dovgopolov M.V. Akceptor formal'degida [Formaldehyde Acceptors]. Patent RF, no. 2148067, 2000. 13. Roffael E. Die Formaldehyd-Abgabe von Spanplatten und anderen Welkstoffen. Stuttgart, 1982. (Russ. ed.: Schtembach А.P., Semyonova V.B. Vydelenie formal'degida iz drevesnostruzhechnyh plit). Мoscow, 1991. 159 p.Improvement of the Environmental Safety of Wood Particle Boards |
Make a Submission
Lesnoy Zhurnal (Russian Forestry Journal) was awarded the "Seal of Recognition for Active Data Provider of the Year 2024" INDEXED IN:
|
|
|
|
|
|
|
|
|
|
|
|
|