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Cited by 137 publications
(76 citation statements)
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References 13 publications
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“…The rate of degradation of polyoses under an oxidising atmosphere is higher than under an inert atmosphere (Kamdem and al. 1999;Yildiz and Gümüskaya 2005).…”
Section: Effect Of Heat Treatment On Wood Cell Wall Polymers and Woodmentioning
confidence: 99%
See 1 more Smart Citation
“…The rate of degradation of polyoses under an oxidising atmosphere is higher than under an inert atmosphere (Kamdem and al. 1999;Yildiz and Gümüskaya 2005).…”
Section: Effect Of Heat Treatment On Wood Cell Wall Polymers and Woodmentioning
confidence: 99%
“…The decomposition of lignin is observed for temperatures starting from 220°C with the appearance of phenolic substances such as vanillin. Modifications of wood properties after heat treatment are mainly due to the thermal degradation of hemicelluloses (Yildiz and Gümüskaya 2005;Hakkou et al 2006;Welzbacher et al, 2007). No noticeable degradations were observed for temperatures between 80 and 180°C under nitrogen atmosphere (Hakkou et al 2005b), while degradations appeared at lower temperatures under steam atmosphere.…”
mentioning
confidence: 99%
“…Depolymerisation of cellulose and a reduction of the degree of its crystallinity, as well as decreased contents of carbohydrate components in cell walls of wood were shown e.g. by Bhuiyan et al (2000) and Yildiz and Gümüşkaya (2007). Also Hill (2006) and Doczekalska (2010), who investigating physico-mechanical properties of thermally modifi ed wood and reported degradation of basic structural wood components, i.e.…”
Section: Rezultati I Raspravamentioning
confidence: 97%
“…2) showed the evolution of the molecular structure of all of the biopolymers present in the Ulex fibres. In the first stage, between 147 °C and 320 °C, a shallow and broad endothermic peak was observed at 229 °C and was attributed to the decomposition of hemicellulose (Tsujiyama and Miyamori 2000;Yildiz and Gümüşkaya 2007). A large endothermic signal followed at 361.74 °C.…”
Section: Structure/microstructure and Thermal Analysis Of Cellulosementioning
confidence: 99%