1- امین زاده لیافویی، فرهاد؛ 1389، بررسی تاثیر اشباع نانوسیلور بر میزان نفوذپذیری گازی چوب راش و صنوبر تیمارشده با یخخشک (Dry Ice)، پایاننامهی کارشناسی ارشد، دانشگاه تربیت دبیر شهید رجایی، 98 صفحه.
2- پارساپژوه، داود، 1373، تکنولوژی چوب، انتشارات دانشگاه تهران، 404 صفحه.
3- Choi, S. U. S., YU, W., Lockwood, F. E., and grulk, E. A. (2001). Anomalous thermal conductivity enhancement in nanotube suspension, “ Appl. Physlett. 79, 2252-2254pp.
4- Colom X, Carrillo F, Nogue´ s F, Garriga P. (2003) Structural analysis of photodegraded wood by means of FTIR spectroscopy. Polym Degrad Stab;80:543–9 pp.
5- Eastman, J. A. Choi, S. U. S., Li, W., and Thompson, W. (2001) Anomalously increased conductivity of ethylene glycol-based nano flluids contianing copper nanoparticle Appl. Physlett 78. 718-720 pp.
6- Garrote, G; Dominguez, H; and Parajo, J.C. (1999) Hydrothermal Processing of Lignocellulosic Materials; Holz als Roh-und Werkstof, 57 (3), 191 – 202pp.
7- Hakkou, M ; Pe trissans, M ; Zoulalian, A ; Gerardin, P. (2004). Investigation of wood wettability changes during heat treatment on the basis of chemical analysis. Polymer Degradation and Stability 91: 393-397pp.
8- Hakkou M, Pe´trissans M, Ge´rardin P, Zoulalian A. (2005) Investigation of wood wettability changes during heat treatment on the basis ofchemical analysis. Polymer Degradation and Stability; 89:1-5pp.
9- Hill, C. (2006) Wood Modification Chemical, Thermal and Other Processes; John Wiley & Sons, Ltd., ISBN: 0-470-02172-1; 239P.
10- Jana, S., Salehi-Khojin, and Zhong, W. H. (2007). Eenhancement of fluid thermal conductivety by the adition of single and hybrid nano additives, Thermchim. Acta 462, 45-55 pp.
11- Korkut, S. (2007). The effects of heat treatment on some technological properties in Uludag˘fir (Abies bornmuellerinana Mattf.) wood. Materials and Design 30 (2007) 1853–1858pp.
12- Kung, H. U., Kim, S. H., and Oh, J. M. (2006). Estimation of thermal conductivity of nanofluid using experimental effective particle volume, Exp. Heat Transfer 19, 181-191pp.
13- Latif, M. (2009). Heat Conduction, third edition, springer, 412-416 pp.
Pétrissans, M., Géradin, P., El-Bakali, I. and Seraj, M. (2003). Wettability of heat-treated wood.Holzforschung, 57(3), 301–307pp.
14- Li, Q, and Xuan, Y. (2006). Enhanced heat transfer behaviors of new heat carrier for spacecraft thermal managemant, J. Spacecraft rockets 43, 687-690pp.
15- Patel, H. E, Das, S. K,. Sundarjan, T., Nair, A. S., George, B., and Pradeep, T. (2003). Thermal conductivity naked and monolayer protected metal nanoparticles based nanofluid ; manifestation of anamolous enhancement and chemical effect. Appl. Phys lett 83, 2931-2933 pp.
16- Pétrissans, M., Géradin, P., El-Bakali, I. and Seraj, M. (2003). Wettability of heat-treated wood.Holzforschung, 57(3), 301–307pp.
17- Repellin, V. and Guyonnet, R. (2005). Evaluation of heat-treated wood swelling by differential scanning calorimetry in relation to chemical composition. Holzforschung, 59(1), 28–34pp.
18- Stamm, A.J. and Hansen, L.A. (1937). Minimizing wood shrinkage and swelling. Effect of heating in various gases. Industrial and Engineering Chemistry, 29(7), 831–833pp.
19- Taghiyari, H.R. (2011a). Study on the Effect of Nano-Silver Impregnation on Mechanical Properties of Heat-Treated Populus nigra, Wood Sci. and Tech., Springer-Verlag, 45: 399 – 404 pp.
20- Taghiyari, H.R. (2011b) Effects of nano-silver on gas and liquid permeability of particleboard. Digest Journal of Nanomaterials and Bioresources, Vol. 6, No 4, October-December, 1517 – 1525pp.
21- Taghiyari HR, Rangavar H, Farajpour Bibalan, O. (2011). Nano-Silver in Particleboard. BioResources, 6(4): 4067 – 4075pp.
22- Taghiyari, H.R., Rassam, G., Lotfinejad Sani, Y., Karimi, A. ( 2012). Effects of nano-silver impregnation on some mechanical properties of ice-blasted specimens prepared from two native species. Journal of Tropical Forest Science, Accepted to be published on Jan.
23- Taghiyari, H.R. (2012). Correlation between Gas and Liquid Permeabilities in some Nano-Silver-Impregnated and Untreated Hardwoods. Journal of Tropical Forest Science, Accepted: JTFS 24(2): in press on April.
24- Tiemann, H.D. (1915). The Effect of Different Methods of Drying on the strength of Wood; Lumber World Review; 28 (7), 19-20PP.
25-Yu, W., Xie, H., Chen, L., and Li, Y. (2010). Investigation of the thermal transport properties of ethylene glycol-based nano flluids contianing copper nanoparticle Powder Technol. 197, 218-221PP.
26- Warrier, P., Teja, A. (2011). Effect of particle size on the thermal conductivity of nanofluids containing metallic nanoparticles, Vol 6:247.