g. Lesosibirsk, Russian Federation
Lesosibirsk, Krasnoyarsk, Russian Federation
Russian Federation
Russian Federation
Predstavleny rezul'taty issledovaniy v oblasti izgotovleniya drevesnyh plit special'nogo naznacheniya, na osnovanii kotorogo vozmozhno sovershenstvovanie energosilovyh, konstruktivnyh i tehnologicheskih parametrov razmalyvayuschih mashin s uchetom ispol'zovaniya othodov proizvodstva dlya uluchsheniya kachestvennyh pokazateley drevesnovoloknistyh materialov i fiziko-mehanicheskih pokazateley gotovoy produkcii.Dlya resheniya postavlennoy zadachi s cel'yu polucheniya matematicheskogo opisaniya processa razmola drevesnovoloknistoy massy i izgotovleniya drevesnovoloknistyh plit suhim sposobom, byliispol'zovany metody statistichesko-matematicheskogo planirovaniya.Razrabotanamatematicheskaya model' ob'ekta dlya ispol'zovaniya ee v vide instrumenta issledovaniya. S ee pomosch'yu opredelyayutsya neobhodimye harakteristiki ob'ekta, i sposoby upravleniya optimal'nymi rezhimami funkcionirovaniya,rezul'taty vliyaniya na ob'ektrazlichnyh faktorov.Pri planirovanii eksperimentas pomosch'yu sovokupnosti priemov,vozmozhno poluchit' adekvatnoe opisanie processa i pravil'noe postroenieinteresuyuschegoeksperimenta.V rabote byli polucheny uravneniya,kotorye opisyvayut issleduemye processy, pozvolyayut ispol'zovat' othody proizvodstva dlya uluchsheniya kachestvennyh pokazateley drevesnovoloknistyh materialov i fiziko-mehanicheskih pokazateley gotovoy produkcii. Pri izvestnyh znacheniyah massovoy doli listvennyh porod v drevesnovoloknistoy kompozicii i odnovremennom var'irovanii vsemi faktorami, vozmozhno povysit' ne tol'ko effektivnost' kompleksnogo ispol'zovaniya drevesnogo syr'ya, no i fiziko-mehanicheskie pokazateli drevesnovoloknistyh plit.Pri realizacii eksperimenta v kachestve syr'ya dlya proizvodstva DVP suhogo sposoba ispol'zovali tehnologicheskuyu schepu, otvechayuschuyu trebovaniyam GOST 15815-83 «Schepa tehnologicheskaya. Tehnicheskie usloviya». Formovanie i pressovanie eksperimental'nyh plit, a takzhe ih ocenku razmerno-kachestvennyh harakteristik osuschestvlyali na laboratornyh ustanovkah v filiale SibGU v g. Lesosibirske.
fiziko-mehanicheskie pokazateli, drevesnovoloknistaya plita, odnofaktornyy eksperiment, prochnost', plotnost', vodopogloschenie, listvennye porody
1. Bezrukikh Yu.A. Medvedev S.O., Alashkevich Yu.D., Mokhirev A.P. Ratsional'noe prirodopol'zovanie v usloviyakh ustoychivogo razvitiya ekonomiki promyshlennykh predpriyatiy lesnogo kompleksa [Environmental management in the context of sustainable development of the economy of industrial enterprises of the forest complex].Ekonomika i predprinimatel'stvo [Economics and entrepreneurship], 2014. No 12-2. P. 994-996.(In Russian)
2. Borovikov V.P.STATISTICA. Statisticheskij analiz i obrabotka dannyh v srede Windows [STATISTICA. Statistical analysis and data processing in a Windows environment]. Moscow, 199, 605 p.(In Russian)
3. Gamowa I.A.,Chin'Kh. F.Drevesnye kompozicionnye materialy iz othodov drevesiny Sturaxtonkinensis (V'etnam)[Wood composite materials from wood waste Sturaxtonkinensis].Drevesnye plity: teorija i praktika [Woodplates: theoryandpractice]. Saint-Petersburg, 2009, 144p. (In Russian)
4. Goncharov V.N.Teoreticheskie osnovy razmola voloknistyh materialov v nozhevyh mashinah[Theoretical bases of grinding of fibrous materials in knife machines]. Leningrad, 1990, 474p. (In Russian)
5. Gromov A. I., Serov, V.B.Sovremennoe oborudovanie dlja izgotovlenija drevesnovoloknistyh plit srednej plotnosti[Modern equipment for the production of medium density fibreboard slabs]. Moscow, 1986, 38 p. (In Russian)
6. Zyryanov M.A., Dresvyankin I.A., Rubinskaya A.V. Eksperimental'no-teoreticheskoe obosnovanie fiziko-khimicheskikh prevrashcheniy drevesnoy biomassy v tekhnologii proizvodstva drevesnovoloknistykh plit [Experimentally-theoretical substantiation of physical and chemical changes Dreux-spring biomass in the technology of production of fibreboard]. Inzhenernyy vestnik Dona [Engineering journal of Don]. 2016, No 4 URL: ivdon.ru/ru/magazine/archive/n4y2016/3841(In Russian)
7. Zyryanov M.A., Mokhirev A.P., Ryabova T.G., Karpuk S.A. Razrabotka i eksperimental'no -teoreticheskoe obosnovanie tekhnologii pererabotki porubochnykh ostatkov drevesiny [Development and experimental-theoretical substantiation of the technology of processing of wood residues]. V mire nauchnykh otkrytiy [In the world of scientific discoveries]. 2015. No 12 -3 (72). P. 845 -853.(In Russian)
8. Mokhirev A.P., Bezrukikh Yu.A. Medvedev S.O. Pererabotka drevesnykh otkhodov predpriyatiy lesopromyshlennogo kompleksa, kak faktor ustoychivogo prirodopol'zovaniya [Processing of wood wastes of timber industry complex as a factor of sustainable environmental management]. Inzhenernyy vestnik Dona [Engineering journal of Don]. 2015. T. 36. No 2 -2. P. 81. URL: ivdon.ru/ru/magazine/archive/n2p2y 2015/3011.(In Russian)
9. Mokhirev A.P., Medvedev S.O., Bezrukikh Yu.A., Gerasimova M.M. Primenenie ekonomiko -matematicheskogo modelirovaniya dlya vybora optimal'nogo varianta ispol'zovaniya vtorichnykh drevesnykh resursov [The Use of economic-mathematical modeling for optimal use of waste wood resources]. Rossiyskiy ekonomicheskiy internet - zhurnal [Russian economic Internet magazine]. 2016. No 4. P. 40. URL: e-rej.ru/upload/iblock/283/28335424806feb93bbc3e52798e1e699.pdf(In Russian)
10. Pizhurin A.A. Issledovanie processov derevoobrabotki [Research of woodworking processes]. Moscow, 1984, 232 p. (In Russian)
11. Chistova N.G., Pererabotka drevesnyh othodov v tehnologicheskom processe proizvodstva drevesnovoloknistyh plit[Processing of wood waste in the technological process of production of fibreboard].Krasnoyarsk, 2010, 414p. (In Russian)
12. Chistova N.G.Vlijanie rezhimov razmola na kachestvo podgotovki drevesnogo volokna dlja izgotovlenija DVP. Hvojnye boreal'nye zony[The influence of grinding regimes on the quality of preparation of wood fiber for the manufacture of fiberboard. Coniferous boreal zones]. Krasnoyarsk, 2007, 139 - 143p.(In Russian)
13. Aiti S.N., Subbarao R., Ibrahim M.N. Effect of wood fibers on the rheological properties of i-pp/wood fiber composites. Journal of Applied Polymer Science. 2004. T. 91. No1. P. 644-650.
14. Badel E., Delisee C., Lux J.3D Structural characterisation, deformation measurements and assessment of low-density wood fibreboard under compression: the use of x-ray microtomography Composites Science and Technology. 2008. T. 68. No 7-8. P. 1654-1663.
15. Blankenhorn P.R., Blankenhorn B.D., Silsbee M.R., DiCola M. Effects of fiber surface treatments on mechanical properties of wood fiber-cement composites. Cement and Concrete Research. 2001. T. 31. No 7. P. 1049-1055.
16. Coutinho F.M.B., Costa T.H.S., Carvalho D.L., Gorelova M.M., De Santa Maria L.C. Thermal behaviour of modified wood fibers. Polymer Testing. 1998. T. 17. No 5. P. 299-310.
17. Fahlen J., Salmen L. Cross-sectional structure of the secondary wall of wood fibers as affected by processing. Journal of Materials Science. 2003. T. 38. No 1. P. 119-126.
18. Labelle E.R., Jaeger D., Poltorak B.J. Assessing the ability of hardwood and softwood brush mats to distribute applied loads. Croatian Journal of Forest Engineering. 2015. T. 36. No2. P. 227-242.
19. Lee B.J., McDonald A.G., James B. Influence of fiber length on the mechanical properties of wood-fiber/polypropylene prepreg sheets. Materials Research Innovations. 2001. T. 4. No 2-3. P. 0097-0103.
20. Pehanich J.L., Blankenhorn P.R., Silsbee M.R. Wood fiber surface treatment level effects on selected mechanical properties of wood fiber-cement composites. Cement and Concrete Research. 2004. T. 34. No 1. PP. 59-65.