Детайли за публикацията
(Publication details)

Оригинал (Original)
Автори: П. Динев., Николова, Д. Н.
Заглавие: Плазмено подпомогнати технологии на капилярно импрегниране за огнезащита на дърво
Ключови думи: plasma aided technologies, plasma aided impregnation, anionic surfactant, dielectric barrier discharge, flame retardants, and flame retarded wood

Абстракт: This study was developed as part of an investigation of the thermal degradation analysis of flame retarded wood (FR wood), wooden products, and cellulosic materials. The study was focused on well-known thermal methods of analysis of degradation of wood, cellulose, hemicellulose, and lignin. The methods included thermogravimetric analysis (TGA), differential thermal analysis (DTA), and differential scanning calorimetry (DSC). These thermal methods were used for evaluation of the influence of FR and plasma FR wood treatment on pyrolysis. Thermal analyses gave basic information on the mechanism of pyrolysis and combustion as well as data on the effect of wood plasma surface treatment and modification. A discussion of the general thermal degradation process for natural wood and FR wood is followed by use of this method to analyze the thermal degradation of various kinds of FR woods including plasma aided flame retarded wood.

Библиография

    Издание
    8 МНТК по Авангардни машиностроителни обработки АМО'2008, стр. стр. 367-372, 2008, България, Кранево

    Пълен текст на публикацията

    Autors: П. Динев., Gospodinova, D. N.
    Title: Plasma-aided capillary impregnation technologies for fireproofing wood
    Keywords: plasma aided technologies, plasma aided impregnation, anionic surfactant, dielectric barrier discharge, flame retardants, and flame retarded wood

    Abstract: This study was developed as part of an investigation of the thermal degradation analysis of flame retarded wood (FR wood), wooden products, and cellulosic materials. The study was focused on well-known thermal methods of analysis of degradation of wood, cellulose, hemicellulose, and lignin. The methods included thermogravimetric analysis (TGA), differential thermal analysis (DTA), and differential scanning calorimetry (DSC). These thermal methods were used for evaluation of the influence of FR and plasma FR wood treatment on pyrolysis. Thermal analyses gave basic information on the mechanism of pyrolysis and combustion as well as data on the effect of wood plasma surface treatment and modification. A discussion of the general thermal degradation process for natural wood and FR wood is followed by use of this method to analyze the thermal degradation of various kinds of FR woods including plasma aided flame retarded wood.

    References

      Issue
      8-th International Conference on Advanced Manufacturing Operations, pp. 367-372, 2008, Bulgaria, Kranevo

      Full text of the publication

      Вид: публикация в национален форум с межд. уч.

      Въведена от: доц. д-р Диляна Николаева Николова