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Kang Xu, Yulei Gao, Xiaomeng Zhang, Zhonghao Li, Shasha Song, Yiqiang Wu, Xianjun Li & Jianxiong Lu. (2022) Effects of drying temperature on hygroscopicity and mechanical performance of resin-impregnated wood. Drying Technology 40:11, pages 2414-2426.
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Mingjie Guan, Xinyuan Tang, Keke Du, Jinzhang Liu & Shuangchang Li. (2022) Fluorescence characterization of the precuring of impregnated fluffed veneers and bonding strength of scrimber in relation to drying conditions. Drying Technology 40:2, pages 265-272.
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Kang Xu, Shaofei Yuan, Yulei Gao, Yiqiang Wu, Jian Zhang, Xianjun Li & Jianxiong Lu. (2021) Characterization of moisture states and transport in MUF resin-impregnated poplar wood using low field nuclear magnetic resonance. Drying Technology 39:6, pages 791-802.
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Zhu Li, Jiali Jiang & Jianxiong Lyu. (2020) The orthotropic viscoelastic properties of Chinese fir wood during the temperature ramping process. Drying Technology 38:11, pages 1411-1420.
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Henrique W. Dalla Costa, Rodrigo Coldebella, Fernanda R. Andrade, Marina Gentil, Ronan Correa, Darci A. Gatto & André L. Missio. (2020) Brittleness increase in Eucalyptus wood after thermal treatment. International Wood Products Journal 11:1, pages 38-42.
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Jacek Baranski. (2018) Moisture content during and after high- and normal-temperature drying processes of wood. Drying Technology 36:6, pages 751-761.
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André L. Missio, Bruno D. Mattos, Pedro H. G. de Cademartori & Darci A. Gatto. (2016) Effects of Two-Step Freezing-Heat Treatments on Japanese Raisintree (Hovenia Dulcis Thunb.) Wood Properties. Journal of Wood Chemistry and Technology 36:1, pages 16-26.
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Seyied Mahmoud Miri Tari, Siroos Habibzade & Hamid R. Taghiyari. (2015) Effects of Drying Schedules on Physical and Mechanical Properties in Paulownia Wood. Drying Technology 33:15-16, pages 1981-1990.
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Daniel Goujot & Francis Courtois. (2015) Comparison and Discussion of Experimental Strategies to Improve Parameter Identification of a Drying Model. Drying Technology 33:8, pages 896-906.
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Bekir
Cihad Bal & İbrahim Bektaş. (2013) The Effects of Heat Treatment on Some Mechanical Properties of Juvenile Wood and Mature Wood of Eucalyptus grandis
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Ram Yamsaengsung & Surapit Tabtiang. (2011) Hybrid Drying of Rubberwood Using Superheated Steam and Hot Air in a Pilot-Scale. Drying Technology 29:10, pages 1170-1178.
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Nadir Ayrilmis & Umit Buyuksari. (2011) Enhancement of Dimensional Stability of Biocomposites Containing Agricultural Waste by Heat-Treatment Method. Drying Technology 29:5, pages 591-598.
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Articles from other publishers (14)
Elder Eloy, Eduarda Bandera, Tauana de Souza Mangini, Rômulo Trevisan, Luana Candaten & Laura da Silva Zanchetta. (2023) Thermal modification influences the mechanical resistance of wood from forestry species. Ciência Rural 53:3.
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Lingfeng Zhang, Biao Xu, Zhongjie Fang, Chen Li, Xijun Kong, Qianyi Li & Kai Guo. (2022) Experimental Study on the Bending and Shear Behaviors of Chinese Paulownia Wood at Elevated Temperatures. Polymers 14:24, pages 5545.
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Xinhao Feng, Jingyu Chen, Shuxian Yu, Zhihui Wu & Qiongtao Huang. (2022) Mild hydrothermal modification of beech wood (Zelkova schneideriana Hand-Mzt): its physical, structural, and mechanical properties. European Journal of Wood and Wood Products 80:4, pages 933-945.
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Kong Yue, Jinhao WuFeng WangZhangjing ChenWeidong Lu. (2022) Mechanical Properties of Douglas Fir Wood at Elevated Temperatures under Nitrogen Conditions. Journal of Materials in Civil Engineering 34:2.
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Lin Yang & Honghui Jin. (2021) Effect of Heat Treatment on the Physic-Mechanical Characteristics of Eucalyptusurophylla S.T. Blake. Materials 14:21, pages 6643.
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Aleksandra Konopka, Jacek Barański, Kazimierz A. Orłowski, Dariusz Mikielewicz & Ladislav Dzurenda. (2021) Mathematical model of the energy consumption calculation during the pine sawn wood (Pinus sylvestris L.) drying process. Wood Science and Technology 55:3, pages 741-755.
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Jhon F. Herrera-Builes, Víctor Sepúlveda-Villarroel, Jairo A. Osorio, Linette Salvo-Sepúlveda & Rubén A. Ananías. (2021) Effect of Thermal Modification Treatment on Some Physical and Mechanical Properties of Pinus oocarpa Wood. Forests 12:2, pages 249.
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Elder Eloy, Eduarda Bandera, Tauana Mangini, Laura da Silva Zanchetta, Rômulo Trevisan, Braulio Otomar Caron & Luana Candaten. (2020) INFLUENCE OF DRYING ON THE PHYSICAL AND MECHANICAL PROPERTIES OF WOOD FROM TREES GROWN IN AN AGROFORESTRY SYSTEM. Revista Árvore 44.
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Andi Hermawan & Noboru Fujimoto. (2019) Viscoelastic creep behavior of surface- and inner-layers of sugi boxed-heart timber under various temperatures. Journal of Wood Science 65:1.
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Taghiyari, Esmailpour & Papadopoulos. (2019) Paint Pull-Off Strength and Permeability in Nanosilver-Impregnated and Heat-Treated Beech Wood. Coatings 9:11, pages 723.
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Kong Yue, Zhangjing Chen, Weidong Lu, Weiqing Liu, Mengyu Li, Yaling Shao, Lijuan Tang & Li Wan. (2017) Evaluating the mechanical and fire-resistance properties of modified fast-growing Chinese fir timber with boric-phenol-formaldehyde resin. Construction and Building Materials 154, pages 956-962.
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Sebahattin Tiryaki & Aytaç Aydın. (2014) An artificial neural network model for predicting compression strength of heat treated woods and comparison with a multiple linear regression model. Construction and Building Materials 62, pages 102-108.
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Bekir Cihad Bal. (2013) Some physical and mechanical properties of thermally modified juvenile and mature black pine woodPhysikalische und mechanische Eigenschaften von thermisch modifiziertem juvenilem und adultem Schwarzkiefernholz. European Journal of Wood and Wood Products 72:1, pages 61-66.
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Lauri Rautkari, Juhani Honkanen, Callum A. S. Hill, Daniel Ridley-Ellis & Mark Hughes. (2013) Mechanical and physical properties of thermally modified Scots pine wood in high pressure reactor under saturated steam at 120, 150 and 180 °CMechanische und physikalische Eigenschaften von in einem Hochdruckreaktor unter Sattdampfbedingungen bei 120, 150 und 180 °C thermisch modifiziertem Kiefernholz. European Journal of Wood and Wood Products 72:1, pages 33-41.
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