-Emaminasab, M., Tarmian, A., Oladi, R., Pourtahmasi, K. and Avramidis, S., 2016. Fluid permeability in poplar tension and normal wood in relation to ray and vessel properties. Wood Science and Technology, 51: 1-12.
-Fichtler, E. and Worbes, M., 2012. Wood anatomical variables in tropical trees and their relation to site conditions and individual tree morphology. IAWA Journal 33: 119-140.
-Forozan, Z., Tarmian, A., Ghamari R. and Matini Behzad H., 2015. The Effect of wetwood and blue stain (Ceratocystis spp.) on the drying rate and fluid transport coefficients of poplar Wood (P. nigra). Iranian Journal of Wood and Paper Science Research, 29(4): 579-571. (In Persian)
-Gholamiyan H. and Tarmian, A., 2010. Radial variation in longitudinal permeability of beech wood containing red heartwood. Iranian Journal of Natural Resources, 63(1): 37-46. (In Persian)
-Keey, R.B., Langrish, T.A.G. and Walker, J.C.F., 2000. Kiln Drying of Lumber, Springer, Berlin, 326p.
-Madhoushi, M. and Alizadeh, M., 2017. Numerical and experimental establishment of kiln drying schedule for Iranian beech wood based on diffusion theory. Iranian Journal of Wood and Paper Science Research, 32(4): 486-497. (In Persian)
-Moya, M., Tenorio C. and Meyer, I., 2012. Influence of wood anatomy on moisture content, shrinkage and during defects in Vochysia guatemalensis Donn Sm. Scientia Forestalis, 40(94):249-258.
-Najafi Harsini, F., Oladi, R. and Pourtahmsi, K., 2018. The mutual relationship between earlywood vessel features of Persian oak (Quercus brantii Lindl.) and tree mortality. Iranin Journal of Forest 10(1): 1-12. (In Persian)
-Oladi, R. 2014. Application of “Image J” for measuring vessel features of wood. In: The second national conference on new technologies in the wood and paper industries, IAUCCWP02_063, Chalous, Iran. (In Persian)
-Oladi, R., Bräuning, A. and Pourtahmasi, K., 2014. “Plastic” and “static” behavior of vessel-anatomical features in Oriental beech (Fagus orientalis Lipsky) in view of xylem hydraulic conductivity. Trees 28: 493-502.
-Oladi, R., Nasiriani, S., Danekar, A. and Pourtahmasi, K. 2015. Inter-relations between tree-ring width and vessel features in black alder (Alnus glutinosa). Iranian Journal of Wood and Paper Science Research 30(2):278- 288. (In Persian)
-Espinoza1, O. and Bond, B., 2016. Vacuum Drying of Wood—State of the Art. Curr Forestry Rep, 2:223–235
-Parhizkari, M.M., Tarmian, A., Taghiyari, H.R. and Karimi, A.N., 2011. The effect of drying intensity and moisture content on longitudinal permeability of poplar tension and normal wood (populus nigra Iranian Journal of Wood and Paper Science Research 26 (3), 2011, 477-485.
-Rahimi, S., Tarmian, A. and Faezipour M., 2011. A study on the effect of grain orientation on the quality of kiln dried poplar lumbers. Journal of Forest and Wood Products, 64(1): 23-37. (In Persian)
-Perre, P., 2007. Fundamentals of Wood Drying. A.R.BO.LOR., France, 365p.
-Redman A.L., Henri B., Turner I. and Perre P. 2016. Characterization of wood-water relationships and transvers anatomy and their relationship to drying degrade. Wood Science and Technology, 50: 739-757.
-Salehpour Sh. and Tarmian, A., 2014. Effect of Drying method on the permeability coefficient of oak wood (Quercus catanfifolia ). Iranian Journal of Wodo and Paper Industries, 5(1):1-9 (In Persian)
-Sayar M. and Tarmian A., 2010. The effect of tension wood formation on the anatomical characteristics and gelatinous layer formation in the fibers of poplar (P. nigra). Journal of Wood & Forest Science and Technology, 17(2): 144-133. (In Persian)
-Shahverdi, M., Tarmian, A., Haji Mirza Tayeb and Moosavi Hossini, S.M.J., 2010. Effect of beech red heartwood (Fagus orientalis L.) on the physical properties (moisture content and specific gravity) and the drying behavior of the species. Journal of Wood & Forest Science and Technology, 17(3): 85-98. (In Persian)
-Tarmian, A. and Perré, P., 2009a. Air permeability in longitudinal and radial directions of compression wood of Picea abies and tension wood of Fagus sylvatica. Holzforschung, 63: 352-356.
-Tarmian, A., Remond, R., Dashti, H. and Perré, P., 2012. Moisture diffusion coefficient of reaction woods: compression wood of Picea abies L. and tension wood of Fagus sylvatica L. Wood Science and Technology, 46: 1-3. 405-417.
-Tarmian, A., Remond, R., Faezipour, M., Karimi, K. and Perré, P., 2009b. Reaction wood drying kinetics: Tension wood in Fagus sylvatica and compression wood in Picea abies. Wood Science Technology, 43:113-130.
-Tarmian, A., Sepehr, A. and Rahimi, S., 2009c. Drying Stress and Strain in Tension Wood: A Conventional Kiln Schedule to Efficiently Dry Mixed Tension/Normal Wood Boards in Poplar. Drying Technology. 27:1033-1040.
-Tarmian, A., Shahverdi, M., Eshaghi, S. and Dashti, H., 2011. The susceptibility of poplar tension and normal wood (P. nigra) to collapse during drying Iranian 591 Journal of Wood and Paper Science Research, 26(3): 579-59. (In Persian)