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Adlam, R. 2005. Thermomechanical Densification of Timber: Initial Investigations of the Potential of Softwood Timber. Forest and Wood Products Research and Development Corporation, Australia.AdlamR.2005Thermomechanical Densification of Timber: Initial Investigations of the Potential of Softwood TimberForest and Wood Products Research and Development CorporationAustraliaSearch in Google Scholar
Ahmed, S.A., Moren, T., Hagman, O., Cloutier, A., Fang, C.H., Elustondo, D. 2013. Anatomical properties and process parameters affecting blister/blow formation in densified European aspen and downy birch sapwood boards by thermo-hygro-mechanical compression. Journal of Materials Science, 48, 8571–8579. DOI: https://doi.org/10.1007/s10853-013-7679-9AhmedS.A.MorenT.HagmanO.CloutierA.FangC.H.ElustondoD.2013Anatomical properties and process parameters affecting blister/blow formation in densified European aspen and downy birch sapwood boards by thermo-hygro-mechanical compressionJournal of Materials Science4885718579DOI: https://doi.org/10.1007/s10853-013-7679-910.1007/s10853-013-7679-9Search in Google Scholar
Altınok, M. 1998. Effects on the adhesion resistance of wooden surfaces treated in woodworking basic machines. Polytechnic Magazine, 1 (2), 17–20.AltınokM.1998Effects on the adhesion resistance of wooden surfaces treated in woodworking basic machinesPolytechnic Magazine121720Search in Google Scholar
ASTM A1035. 2021. Standard Specification for Deformed and Plain, Low-Carbon, Chromium, Steel Bars for Concrete Reinforcement. ASTM.ASTM A10352021Standard Specification for Deformed and Plain, Low-Carbon, Chromium, Steel Bars for Concrete ReinforcementASTMSearch in Google Scholar
Atar, M., Özçiftçi, A. 1999. Effects of bleaching chemicals on the adhesion strength of PVAc glue in wood material. Turkish Journal of Forestry, 11 (1), 15–45.AtarM.ÖzçiftçiA.1999Effects of bleaching chemicals on the adhesion strength of PVAc glue in wood materialTurkish Journal of Forestry1111545Search in Google Scholar
Atılgan A. 2019. The effect of thermo-mechanical concentrated wood material on adhesion resistance in varnishes. Undergraduate thesis, Gazi University, Ersin Ercan, Kadir Aydin, Cansu Özder, Musa Atar Faculty of Technology, Department of Wood Industry Engineering, Ankara, Turkey.AtılganA.2019The effect of thermo-mechanical concentrated wood material on adhesion resistance in varnishesUndergraduate thesis,Gazi University, Ersin Ercan, Kadir Aydin, Cansu Özder, Musa Atar Faculty of Technology, Department of Wood Industry EngineeringAnkara, TurkeySearch in Google Scholar
Blomberg, J. 2006. Mechanical and physical properties of semi-isostatically densified wood. Doctoral thesis, Lulea University of Technology, Division of Wood Technology, Sweden.BlombergJ.2006Mechanical and physical properties of semi-isostatically densified woodDoctoral thesis,Lulea University of Technology, Division of Wood TechnologySwedenSearch in Google Scholar
Eckelman, C.A. 1979. Withdrawal strength of dowel joints: effect of shear strength. Forest Product Journal, 29 (1), 48–52.EckelmanC.A.1979Withdrawal strength of dowel joints: effect of shear strengthForest Product Journal2914852Search in Google Scholar
Imirzi, Ö., Ülker, O., Burdurlu, E. 2014. Effect of densification temperature and some surfacing techniques on the surface roughness of densified Scots pine (Pinus sylvestris L.). BioResources, 9 (1), 191–209.ImirziÖ.ÜlkerO.BurdurluE.2014Effect of densification temperature and some surfacing techniques on the surface roughness of densified Scots pine (Pinus sylvestris L.)BioResources9119120910.15376/biores.9.1.191-209Search in Google Scholar
Karaman, A., Yıldırım, M.N., Uslu, E. 2019. Effect of dowel wood species on dowel tensile strength in wooden length joints bonded with different adhesives. Turkish Journal of Forestry, 20 (4), 427–432. DOI: 10.18182/tjf.591404KaramanA.YıldırımM.N.UsluE.2019Effect of dowel wood species on dowel tensile strength in wooden length joints bonded with different adhesivesTurkish Journal of Forestry20442743210.18182/tjf.591404Open DOISearch in Google Scholar
Kasal, A. 2007. Determination of dowel holding performance of wood materials. Journal of Engineering and Architecture Faculty, 3, 387–397.KasalA.2007Determination of dowel holding performance of wood materialsJournal of Engineering and Architecture Faculty3387397Search in Google Scholar
Kasal, A., Tolga, K., Smardzewski, J. 2020. Experimental and numerical study on withdrawal strength of different types of auxetic dowels for furniture joints. Materials, 13 (19), 4252.KasalA.TolgaK.SmardzewskiJ.2020Experimental and numerical study on withdrawal strength of different types of auxetic dowels for furniture jointsMaterials1319425210.3390/ma13194252757945532987710Search in Google Scholar
Keskin, H., Atar, M., Akyildiz, M.H. Bonding strengths of polyvinyl acetate, Desmodur-VTKA, phenolformaldehyde and urea-formaldehyde adhesives in wood materials impregnated with Vacsol Azure. Materials and Design, 30 (9), 3789–3794. DOI: https://doi.org/10.1016/j.matdes.2009.01.032KeskinH.AtarM.AkyildizM.H.Bonding strengths of polyvinyl acetate, Desmodur-VTKA, phenolformaldehyde and urea-formaldehyde adhesives in wood materials impregnated with Vacsol AzureMaterials and Design30937893794DOI: https://doi.org/10.1016/j.matdes.2009.01.03210.1016/j.matdes.2009.01.032Search in Google Scholar
Kloiber, M., Tippner, J., Hrivnák, J. 2014. Mechanical properties of wood examined by semi-destructive devices. Materials and Structures, 47, 199–212. DOI: https://doi.org/10.1617/s11527-013-0055-zKloiberM.TippnerJ.HrivnákJ.2014Mechanical properties of wood examined by semi-destructive devicesMaterials and Structures47199212DOI: https://doi.org/10.1617/s11527-013-0055-z10.1617/s11527-013-0055-zSearch in Google Scholar
Korkut, S.D., Hiziroğlu, S., Aytin, A. 2013. Effect of heat treatment on surface characteristics wild cherry wood. BioResources, 8 (2), 1582–1590.KorkutS.D.HiziroğluS.AytinA.2013Effect of heat treatment on surface characteristics wild cherry woodBioResources821582159010.15376/biores.8.2.1582-1590Search in Google Scholar
Kutnar, A., Kamke, F.A., Sernek, M. 2008. The mechanical properties of densified VTC wood relevant for structural composites. Holz als Roh-und Werkstoff, 66 (6), 439–446.KutnarA.KamkeF.A.SernekM.2008The mechanical properties of densified VTC wood relevant for structural compositesHolz als Roh-und Werkstoff66643944610.1007/s00107-008-0259-zSearch in Google Scholar
Küdela, J., Resetka, M. 2011. Influence of high pressing temperature on dimensional stability of beech wood. Forestry and Wood Technology, 75, 19–25.KüdelaJ.ResetkaM.2011Influence of high pressing temperature on dimensional stability of beech woodForestry and Wood Technology751925Search in Google Scholar
Laine, K. et al. 2016. Wood densification and thermal modification: hardness, set recovery and micro-morphology. Wood Science and Technology, 50, 883–894. DOI: https://doi.org/10.1007/s00226-016-0835-zLaineK.2016Wood densification and thermal modification: hardness, set recovery and micro-morphologyWood Science and Technology50883894DOI: https://doi.org/10.1007/s00226-016-0835-z10.1007/s00226-016-0835-zSearch in Google Scholar
Li, L., Gong, M., Yuan, N., Li, D. 2013. An Optimal thermo-hydro-mechanical densification (THM) process for densifying balsam fir wood. BioResources, 8 (3), 3967–3981.LiL.GongM.YuanN.LiD.2013An Optimal thermo-hydro-mechanical densification (THM) process for densifying balsam fir woodBioResources833967398110.15376/biores.8.3.3967-3981Search in Google Scholar
Navi, P., Girardet, F. 2000. Effects of thermo-hydro-mechanical treatment on the structure and properties of wood. Holzforschung, 54 (3), 287–293.NaviP.GirardetF.2000Effects of thermo-hydro-mechanical treatment on the structure and properties of woodHolzforschung54328729310.1515/HF.2000.048Search in Google Scholar
Parham, R.A., Gray, R.L. 1984. Formation and structure of wood. In: The Chemistry of Solid Wood (ed. R. Rowell). American Chemical Society, 13–56. DOI: 10.1021/ba-1984-0207.chParhamR.A.GrayR.L.1984Formation and structure of woodIn:The Chemistry of Solid Wooded.RowellR.American Chemical Society135610.1021/ba-1984-0207.chOpen DOISearch in Google Scholar
Pelit, H. 2014. The effects of densification and heat treatment on finishing process with some technological properties of Eastern beech and scots pine. PhD thesis, Gazi University, Ankara, Turkey.PelitH.2014The effects of densification and heat treatment on finishing process with some technological properties of Eastern beech and scots pinePhD thesis,Gazi UniversityAnkara, TurkeySearch in Google Scholar
Rautkari, L., Properzi, M., Pichelin, F., Hughes, M. 2009. Surface modification of wood using friction. Wood Science and Technology, 43, 291–299.RautkariL.ProperziM.PichelinF.HughesM.2009Surface modification of wood using frictionWood Science and Technology4329129910.1007/s00226-008-0227-0Search in Google Scholar
Santos, C.M.T. dos., Menezzi, C.H.S. Del., Souza, M.R. de. 2012. Properties of thermo-mechanically treated wood from Pinus caribaea var. Hondurensis. BioResources, 7 (2), 1850–1865.SantosC.M.T. dos.MenezziC.H.S. Del.SouzaM.R. de.2012Properties of thermo-mechanically treated wood from Pinus caribaea var. HondurensisBioResources721850186510.15376/biores.7.2.1850-1865Search in Google Scholar
Tabarsa, T., Chui, Y.H. 1997. Effects of hot-pressing on properties of white spruce. Forest Products Journal, 47, 71–76.TabarsaT.ChuiY.H.1997Effects of hot-pressing on properties of white spruceForest Products Journal477176Search in Google Scholar
TS 2475. 1976. Odunda liflere paralel doğrultuda çekme gerilmesinin tayini. T.S.E., Ankara.TS 24751976Odunda liflere paralel doğrultuda çekme gerilmesinin tayiniT.S.E.AnkaraSearch in Google Scholar
TS ISO 3129. 2021. Odun – Küçük kusursuz odun numunelerinin mekanik ve fiziksel muayenesi için genel gerekler ve numune alma yöntemleri. T.S.E., Ankara.TS ISO 31292021Odun – Küçük kusursuz odun numunelerinin mekanik ve fiziksel muayenesi için genel gerekler ve numune alma yöntemleriT.S.E.AnkaraSearch in Google Scholar
Ulker, O., Aslanova, F., Hiziroglu, S. 2018. Properties of thermally treated yellow poplar, southern pine, and eastern redcedar. BioResources, 13 (4), 7726–7737.UlkerO.AslanovaF.HizirogluS.2018Properties of thermally treated yellow poplar, southern pine, and eastern redcedarBioResources1347726773710.15376/biores.13.4.7726-7737Search in Google Scholar
Ulker, O., Burdurlu, E. 2016. Some mechanical properties of densified and laminated lombardy poplar (Populus nigra L.). Wood Research, 61 (6), 959–970.UlkerO.BurdurluE.2016Some mechanical properties of densified and laminated lombardy poplar (Populus nigra L.)Wood Research616959970Search in Google Scholar
Ulker, O., Hiziroglu, S. 2017. Some properties of densified eastern redcedar as function of heat and pressure. Materials, 10 (11), 1275. DOI: https://doi.org/10.3390/ma10111275UlkerO.HizirogluS.2017Some properties of densified eastern redcedar as function of heat and pressureMaterials10111275DOI: https://doi.org/10.3390/ma1011127510.3390/ma10111275570622229112127Search in Google Scholar
Ulker, O., İmirzi, Ö., Burdurlu, E. 2012. The effect of densification temperature on some physical and mechanical properties of Scots pine (Pinus sylvestris L.). BioResources, 7 (4), 5581–5592.UlkerO.İmirziÖ.BurdurluE.2012The effect of densification temperature on some physical and mechanical properties of Scots pine (Pinus sylvestris L.)BioResources745581559210.15376/biores.7.4.5581-5592Search in Google Scholar
Ulker, O., İmirzi, Ö., Burdurlu, E. 2014. Effect of densification temperature and some surfacing techniques on the surface roughness of densified Scots pine (Pinus sylvestris L.). BioResources, 9 (1), 191–209.UlkerO.İmirziÖ.BurdurluE.2014Effect of densification temperature and some surfacing techniques on the surface roughness of densified Scots pine (Pinus sylvestris L.)BioResources91191209Search in Google Scholar