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Article Dans Une Revue Applied Adhesion Science Année : 2020

Effects of heat treatment on the behavior of teak wood adherends bonded joints

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Introduction Nowadays, scientific communities and industries are looking for alternative materials to the synthetic composites and metals, as these materials are non-degradable, limited in quantity, hazardous to nature and costly [1, 2]. Hence many researchers are attracted towards natural materials (e.g. wood) for various applications, such as construction, furniture, decorative products, sports items and many others. Wood is one of the most important materials and widely used since the old era, as it is easily available, ecofriendly, light weight and low cost among many more benefits compared to others [3, 4]. However, the hygroscopicity of wood is the major disadvantage which limits the usage of wood for many applications. There are different processes by which the hygroscopicity of wood can be reduced and many studies have been carried out in the literature on different processes [5, 6]. Heat treatment is the oldest and simplest method by which wood hygroscopicity can be effectively decreased. In addition, the dimensional stability, biological resistance and durability of the wood can also be improved [7-9]. It was showed that the heat treatment of wood not only reduced the hygroscopicity but also caused physical changes in the wood such as surface modification, which can significantly affect the adhesive bond
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hal-04250446 , version 1 (19-10-2023)

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S Budhe, M D Banea, S Ghugal, Silvio DE BARROS. Effects of heat treatment on the behavior of teak wood adherends bonded joints. Applied Adhesion Science, 2020, 8, ⟨10.1186/s40563-020-00124-5⟩. ⟨hal-04250446⟩
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