世界竹藤通讯
世界竹籐通訊
세계죽등통신
WORLD BAMBOO AND RATTAN
2011年
6期
19-22
,共4页
竹原纤维%比表面积%比孔容%平均孔径
竹原纖維%比錶麵積%比孔容%平均孔徑
죽원섬유%비표면적%비공용%평균공경
natural bamboo fibers%specific area%specific pore volume%mean diameter
为研究炭化竹原纤维的特性,进一步提升竹原纤维的使用性能,拓宽竹原纤维的应用领域,采用可控电炉制备了不同炭化温度和不同保温时间条件下的炭化竹原纤维,利用全自动比表面积及孔隙度分析仪测试了炭化竹原纤维的比表面积、比孔容及平均孔径,探讨了炭化条件对其性能的影响。结果表明:随炭化温度的升高和保温时间的延长,炭化竹原纤维的比表面积、比孔容和孔径分布先增大后减小,在较优的工艺条件下,炭化竹原纤维的比表面积和比孔容最大值分别可达819.35m2/g和0.7358cm3/g,平均孔径最小可达2.0836nm。
為研究炭化竹原纖維的特性,進一步提升竹原纖維的使用性能,拓寬竹原纖維的應用領域,採用可控電爐製備瞭不同炭化溫度和不同保溫時間條件下的炭化竹原纖維,利用全自動比錶麵積及孔隙度分析儀測試瞭炭化竹原纖維的比錶麵積、比孔容及平均孔徑,探討瞭炭化條件對其性能的影響。結果錶明:隨炭化溫度的升高和保溫時間的延長,炭化竹原纖維的比錶麵積、比孔容和孔徑分佈先增大後減小,在較優的工藝條件下,炭化竹原纖維的比錶麵積和比孔容最大值分彆可達819.35m2/g和0.7358cm3/g,平均孔徑最小可達2.0836nm。
위연구탄화죽원섬유적특성,진일보제승죽원섬유적사용성능,탁관죽원섬유적응용영역,채용가공전로제비료불동탄화온도화불동보온시간조건하적탄화죽원섬유,이용전자동비표면적급공극도분석의측시료탄화죽원섬유적비표면적、비공용급평균공경,탐토료탄화조건대기성능적영향。결과표명:수탄화온도적승고화보온시간적연장,탄화죽원섬유적비표면적、비공용화공경분포선증대후감소,재교우적공예조건하,탄화죽원섬유적비표면적화비공용최대치분별가체819.35m2/g화0.7358cm3/g,평균공경최소가체2.0836nm。
In order to study the characteristics of carbonized natural bamboo fibers and improve properties and broaden application fields of natural bamboo fibers, electric furnace was used to produce carbonized natural bamboo fibers at different carbonization temperatures and soaking times, and accelerated surface area and porosimetry system was used to measure their pore structure. Then the effect of carbonization temperature and soaking time on specific area, specific pore volume and mean diameter of carbonized fibers was discussed. The results showed that specific area, specific pore volume and mean diameter increased firstly and then decreased with the rise of carbonization temperature and soaking time. Under superior processing conditions, the highest values of specific area and specific pore volume were 819.35 m2/g and 0.7 358 cm3/g respectively and the lowest value of mean diameter was 2.0 836 nm.