An integrated approach to the study of biocomposites in the new modern direction COMPLEX SISTEM can be successfully applied to the study of natural wood. Since the quality of wood-based materials largely determines the structure of wood pulp fibers forming , control over its supramolecular structure during processing allow to transfer the technology to produce high-quality timber to a higher level of innovation . As is known, the samples extracted from the wood pulp a supramolecular structure change during isolation . Molecular crystallites are destroyed or substantially tuna- evaporated. Further processing is required to control the humidity of the wood. The ability to observe the distribution of moisture in the wood , for example during drying would significantly automate this process. Therefore seems more relevant than ever the need to develop non-destructive methods of control timber , allowing moisture to observe the microstructure and dynamics of cellulose . Under this approach, it is possible to measure the fluctuations of the microstructure of wood and moisture using electrical appliances. The basis of such analysis methods are based on the response of wood on the physical impact. A similar approach is used in solving problems of condensed matter physics. As an external physical influence can be used microwave radiation, the pulse magnetic field or a constant linear temperature nonuniformity along one of the sizes.
An integrated approach to the study of biocomposites in the new modern direction COMPLEX SISTEM can be successfully applied to the study of natural wood. Since the quality of wood-based materials largely determines the structure of wood pulp fibers forming , control over its supramolecular structure during processing allow to transfer the technology to produce high-quality timber to a higher level of innovation . As is known, the samples extracted from the wood pulp a supramolecular structure change during isolation . Molecular crystallites are destroyed or substantially tuna- evaporated. Further processing is required to control the humidity of the wood. The ability to observe the distribution of moisture in the wood , for example during drying would significantly automate this process. Therefore seems more relevant than ever the need to develop non-destructive methods of control timber , allowing moisture to observe the microstructure and dynamics of cellulose . Under this approach, it is possible to measure the fluctuations of the microstructure of wood and moisture using electrical appliances. The basis of such analysis methods are based on the response of wood on the physical impact. A similar approach is used in solving problems of condensed matter physics. As an external physical influence can be used microwave radiation, the pulse magnetic field or a constant linear temperature nonuniformity along one of the sizes.
Комплексный подход к исследованию биокомпозитов в рамках нового современного направления COMPLEX SISTEM может быть успешно применен к исследованию природной древесины. Поскольку качество древесных материалов во многом определяет структура волокнообразующей древесны целлюлозы, контроль над ее надмолекулярной структурой в процессе обработки позволит перевести технологии по производству качественной древесины на более высокий инновационный уровень. Как известно, выделенная из древесных образцов целлюлоза меняет свою надмолекулярную структуру в процессе выделения. Молекулярные кристаллиты разрушаются или существенно перестраиваются. Кроме того, в процессе обработки необходим контроль за влажностью древесины. Возможность проводить наблюдение за распределением влажности в древесине, например, во время сушки позволило бы существенно автоматизировать этот процесс. Поэтому как никогда актуальной представляется необходимость разработки методов неразрушающего древесину контроля, позволяющих наблюдать за влажностью и динамикой микроструктуры целлюлозы. В рамках подобного подхода появляется возможность проводить измерения флуктуаций микроструктуры древесины и влажности с помощью электроизмерительных приборов.