林业科学
林業科學
임업과학
SCIENTIA SILVAE SINICAE
2014年
11期
109-114
,共6页
徐康%吕建雄%李贤军%吴义强%刘元
徐康%呂建雄%李賢軍%吳義彊%劉元
서강%려건웅%리현군%오의강%류원
杨木%高强微波%预处理%渗透性%响应曲面法
楊木%高彊微波%預處理%滲透性%響應麯麵法
양목%고강미파%예처리%삼투성%향응곡면법
poplar%high-intensity microwave%pretreatment%permeability%response surface methodology
以速生人工林 I-69杨为研究对象,利用自主研制的木材高强度微波改性预处理设备,采用响应曲面优化法研究木材初始含水率、微波辐射功率和辐射时间对木材渗透性的影响规律,获得优化的杨木微波预处理条件,并揭示高强微波预处理对杨木微观构造的影响。结果表明:1)高强微波预处理能显著提高杨木横向渗透性;2)随着木材初始含水率增加,杨木渗透性呈先增加后减小的趋势,随着微波辐射功率和辐射时间的增加,杨木渗透性整体呈现增加趋势;3)通过高强微波预处理,可使杨木的24 h常压吸水增重量增加约50%,较优的木材初始含水率、微波辐射功率和辐射时间控制区间分别为25%~65%,10~20 kW,60~90 s;4)优化的杨木高强微波预处理条件为:初含水率56%、辐射功率19 kW、辐射时间89 s;5)高强微波预处理可以破坏木材纹孔膜、木射线薄壁细胞等结构,形成新的流体通道,为后期功能体材料的导入和高附加值功能型木质复合材料的制备创造条件。
以速生人工林 I-69楊為研究對象,利用自主研製的木材高彊度微波改性預處理設備,採用響應麯麵優化法研究木材初始含水率、微波輻射功率和輻射時間對木材滲透性的影響規律,穫得優化的楊木微波預處理條件,併揭示高彊微波預處理對楊木微觀構造的影響。結果錶明:1)高彊微波預處理能顯著提高楊木橫嚮滲透性;2)隨著木材初始含水率增加,楊木滲透性呈先增加後減小的趨勢,隨著微波輻射功率和輻射時間的增加,楊木滲透性整體呈現增加趨勢;3)通過高彊微波預處理,可使楊木的24 h常壓吸水增重量增加約50%,較優的木材初始含水率、微波輻射功率和輻射時間控製區間分彆為25%~65%,10~20 kW,60~90 s;4)優化的楊木高彊微波預處理條件為:初含水率56%、輻射功率19 kW、輻射時間89 s;5)高彊微波預處理可以破壞木材紋孔膜、木射線薄壁細胞等結構,形成新的流體通道,為後期功能體材料的導入和高附加值功能型木質複閤材料的製備創造條件。
이속생인공림 I-69양위연구대상,이용자주연제적목재고강도미파개성예처리설비,채용향응곡면우화법연구목재초시함수솔、미파복사공솔화복사시간대목재삼투성적영향규률,획득우화적양목미파예처리조건,병게시고강미파예처리대양목미관구조적영향。결과표명:1)고강미파예처리능현저제고양목횡향삼투성;2)수착목재초시함수솔증가,양목삼투성정선증가후감소적추세,수착미파복사공솔화복사시간적증가,양목삼투성정체정현증가추세;3)통과고강미파예처리,가사양목적24 h상압흡수증중량증가약50%,교우적목재초시함수솔、미파복사공솔화복사시간공제구간분별위25%~65%,10~20 kW,60~90 s;4)우화적양목고강미파예처리조건위:초함수솔56%、복사공솔19 kW、복사시간89 s;5)고강미파예처리가이파배목재문공막、목사선박벽세포등결구,형성신적류체통도,위후기공능체재료적도입화고부가치공능형목질복합재료적제비창조조건。
The poplar (Populus deltoides cv. I-69/55) wood was treated by high-intensity microwave pretreatment with microwave equipment under different initial wood moisture content,microwave radiation power and microwave radiation time. The results showed the transverse permeability of the poplar wood can be significantly increased by the microwave pretreatment;the wood permeability increased at first and then decreased with increased initial wood moisture content,and which increased with the increase of microwave radiation power and radiation time. Compared with the control group,the 24 h water absorption at atmospheric pressure of microwave pretreated wood simple was increased by around 50%,and the reasonable parameters range for initial wood moisture content,radiation power and radiation time were 25% -65%,10 -20 kW and 60 -90 s,respectively. The optimal condition for microwave pretreatment was 56%,19 kW and 89 s for initial wood moisture content,radiation power and radiation time,respectively. This appropriate microwave pretreatment generates high internal steam pressure,resulting in the rupturing of wood cell pore membranes and ray cells. Therefore, the great increase of permeability in the radial and longitudinal direction can be achieved and created favorable conditions for the fabrication of high value-added functional wood based composites materials.
