-Ama, O. M.,
Khoele, K.,
Wilson Anku, W.,
Ray, S.S.,
Ogbemudia, P.O. and
Delport, D.J., 2020. Synthesis and Application of MnO
2/Exfoliated Graphite Electrodes for Enhanced Photoelectrochemical Degradation of Methylene Blue and Congo Red Dyes in Water,
Electrocatalysis, 11: 413–421.
-
Chun, K.,
Kim, J. and
Rie, D., 2020. Thermal Characteristics of Expandable Graphite–Wood Particle Composites, Materials 13(12):2732, DOI:
10.3390/ma13122732.
-Darmawan, S., Sofyan, K., Pari, G. and Sugiyanto, K., 2010. Effect of activated charcoal addition on formaldehyde emission of medium density fiberboard. Journal of Forestry Research, 2: 100-111.
-Dosthosseini, K., 2007. Wood Comosite Materials. Tehran University Publication (2487), Iran, 708p.
-EN 310 Standard. 1993. Wood Based Panel. Department of Modulus of Elasticity in Bending and Bending Strength, European Committee for Standardization, Brussels, Belgium.
-EN 319. 1993. Determination of Tensile Strength Perpendicular to the Plane of the Board, European Committee for Standardization, Brussels, Belgium.
-Galindo, B., Alcolea, S.G., Gómez, J., Navas, A., Murguialday, A.O., Fernandez, M.P. and Puelles, R.C., 2014. Effect of the number of layers of graphene on the electrical properties of TPU polymers, 2nd International Conference on Structural Nano Composites (NANOSTRUC 2014), IOP Conf. Series: Materials Science and Engineering, 64(1): 012008, doi:10.1088/1757-899X/64/1/012008.
-Hossseinzadegan, A., 2016. Study on graphene-based structures using micro Raman spectroscopy, Fotonic Master's Thesis, Shahid Beheshti University, Laser and Plasma Research Institute.
-Iranian Employers Association of Forest Products, 2018. Information excerpts from the global and national market for wood composites, http://www.iranwoodind.com/main_fa.asp?status=st atistics.
-Jazayeri R., Kazemi Najafi S., Younesi H . and Karegarfard., A. 2020. Influence of modified graphite on formaldehyde emission from medium density fiberboard (MDF), Iranian Journal of Wood and Paper Science Research, Vol. 35 No. (4): 348-361
-Krassowski, D.W.; Hutchings, D.A. and Qureshi, S.P. 2012. Expandable Graphite Flake as an Additive for a New Flame Retardant Resin; GrafTech International Holdings Inc Brooklyn Heights, OH, USA, pp. 1–6
-Kumar, A., Gupta, A., Sharma, K.V., Nasir, M. and Ahmad Khan, T., 2013. Influence of activated charcoalas filler on the properties of wood composites, International Journal of Adhesion and Adhesives, 46: 34-39.
Kumar, A., Gupta, A. and Sharma, K.V., 2014. Thermal and mechanical properties of urea-formaldehyde (UF) resin combined with multiwalled carbon nanotubes (MWCNT) as nanofiller and fiberboards prepared by UF-MWCNT. Holzforschung, 69(2): 199-205.
-Lin, H., Chen, D., Liu, H., Zou, X. and Chen, T., 2017. Effect of MnO2 Crystalline Structure on the Catalytic Oxidation of Formaldehyde. Aerosol Air Qual Res, 17: 1011-1020,
https://doi.org/10.4209/aaqr.2017.01.0013
-Mahanta, N.K. and Abramson, A.R., 2012. Thermal Conductivity of Graphene and Graphene Oxide Nanoplatelets, l3th IEEE ITHERM Conference, May 30 - Jun 1, 2012, San Diego, USA, pp: 1-6.
-Malakani, A., Doosthoseini, K., Faezipour, M. and Layeghi, M., 2014. Effect of Graphite powder on thermal conductivity, physical and mechanical properties of 3-layer particleboard, Iranian Journal of Wood and Paper Industries, 4(2): 123-130.
-Matuana, L.M., 2003. Properties of particleboard panels made with liquid PF resin (control) and PF resin/synthetic graphite, Forest Products Journal, 53 (3).
-Motiee, N., Ebrahimi, G., Tajvidi, M. and Layeghi, M. 2014. Minimizing hot-press time in the manufacturing process of wood plastic composites, Iranian Journal of Wood and Paper Industries, 4(2): 79-90.
-Saroyan, H., Kyzas, G Z. and Deliyann, E.A., 2019. Effective Dye Degradation by Graphene Oxide Supported Manganese Oxide, Processes, 7 (40), doi: 10.3390 / pr7010040.
-Schwarz, J.A., Contescu, C. and Contescu, A., 1995. Methods of preparation of catalyticmaterials, Chemical Reviews, 95:477–510.
-Sekine, Y., 2002. Oxidative decomposition of formaldehyde by metal oxide at room temperature. Atmospheric Environment, 36:5543–7.
-
Sever, K.,
Tavman, I.H.,
Seki, Y., Turgut, A.,
Omastova, M. and
Ozdemir, I., 2013. Electrical and mechanical properties of expanded graphite/high density polyethylene nanocomposites¸
Composites Part B: Engineering,
53: 226-233.
-Shabani Navir, N., 2013. Modified activated carbon effect on formaldehyde emission from particle board, M.Sc thesis, Tehran University.
-Sobolˇciak, P., Abdulgader, A., Mrlik, M., Popelka, A., Abdala, A.A., Aboukhlewa, A.A., Karkri, M., Kiepfer, H., Bart, H.J. and Krupa, I., 2020. Thermally Conductive Polyethylene/Expanded Graphite Composites as Heat Transfer Surface: Mechanical, Thermo-Physical and Surface Behavior, Polymers 2020, 12, 2863; doi: 10. 3390/polym12122863.
-Sousa, D.E.S., Scuracchio, C.H., Barra, G.MO. and Lucas, A.A., 2015. Chapter 7 - Expanded graphite as a multifunctional filler for polymer nanocomposites,
Multifunctionality of Polymer Composites (Challenges and New Solutions): 245-261.
-Sun, J., Li, L., Yu, R., Ma, X., Jin, S., Chen, K., Chen, S., Lv, X. and Shu, Q., 2020. Synthesis and Microwave Absorption Properties ofSulfur-Free Expanded Graphite/Fe3O4Composites, Molecules, 25, 3044; doi: 10.3390/molecules251330.
-Torrey, K.S., Yrjana, W.A. and King Julia, A., 2003. Effect of thermally conductive fillers on the internal bond strength of strand board, Forest Products Journal, 53: 11-12.
-Tsai, K., Kuan, H.C., Chou, H.W., Kuan, C.F., Chen, C.H. and Chiang, C.L., 2011. Preparation of expandable graphite using a hydrothermal method and flame-retardant properties of its halogen-free flame-retardant HDPE composites, J Polym Res, 18: 483–488, DOI 10.1007/s10965-010-9440-2.
-Yahyavi, M., Khazaeian, A. and Shakeri, A., 2017. The use of black liquor and nano-graphene oxide addition to urea formaldehyde adhesive to improve the mechanical and physical properties of particleboard, Iranian Journal of Wood and Paper Science Research, 32 (3): 359-368.
-Zamani, R., 2016. Formaldehyde Release Reduction from Medium Density Fiberboard (MDF) by Using Activated Carbon Produced from MDF Sanding Dust, M.Sc thesis, Tarbiat Modares University.
-Zhang, B., Tian, Y., Jin, X., Lo, T.Y. and Cui, H., 2018. Thermal and Mechanical Properties of Expanded Graphite/Paraffin Gypsum-Based Composite Material Reinforced by Carbon Fiber, Materials, 11, 2205; doi: 10.3390/ma11112205
)