林产化学与工业
林產化學與工業
림산화학여공업
CHEMISTRY AND INDUSTRY OF FOREST PRODUCTS
2015年
3期
27-32
,共6页
姜伟童%苏玲%于淼%房雷%刘玲%徐良君%方桂珍
薑偉童%囌玲%于淼%房雷%劉玲%徐良君%方桂珍
강위동%소령%우묘%방뢰%류령%서량군%방계진
碱木质素%聚乙烯醇%氮元素%交联%缓释
堿木質素%聚乙烯醇%氮元素%交聯%緩釋
감목질소%취을희순%담원소%교련%완석
alkaline lignin%poly ( vinyl alcohol)%nitrogen%crosslinking%slow-release
采用交联法制备了碱木质素-聚乙烯醇-尿素-甲醛( AL-PVA-U-F)交联薄膜,分析碱木质素( AL)和交联剂甲醛( F)的加入量对氮元素缓释的影响,研究薄膜对氮元素的缓释机理,并采用XRD和FT-IR-ATR方法分析薄膜的结晶度和化学结构,结果显示碱木质素的加入可降低薄膜中氮元素的缓释速率,使氮元素达到释放平衡的时间增大,碱木质素和聚乙烯醇质量比5∶5时复合薄膜192 h时达到释放平衡,释放平衡时间最长,氮元素累积释放率最大为77.73%。加入适量的甲醛交联剂使碱木质素、聚乙烯醇、尿素、甲醛之间发生化学反应,线性和网状结构交互从而使薄膜中氮元素缓释减慢。与共混薄膜( AL-PVA-U)相比,甲醛的交联作用使薄膜的结晶度降低。薄膜的氮元素累积释放率曲线呈“S”型趋势,Ritger-Peppas模型和2次多项式模型拟合较好,相关系数(R2)分别为0.9763和0.9509,Ritger-Peppas模型中n为0.8167,说明氮元素释放规律是扩散和溶蚀综合作用的结果。
採用交聯法製備瞭堿木質素-聚乙烯醇-尿素-甲醛( AL-PVA-U-F)交聯薄膜,分析堿木質素( AL)和交聯劑甲醛( F)的加入量對氮元素緩釋的影響,研究薄膜對氮元素的緩釋機理,併採用XRD和FT-IR-ATR方法分析薄膜的結晶度和化學結構,結果顯示堿木質素的加入可降低薄膜中氮元素的緩釋速率,使氮元素達到釋放平衡的時間增大,堿木質素和聚乙烯醇質量比5∶5時複閤薄膜192 h時達到釋放平衡,釋放平衡時間最長,氮元素纍積釋放率最大為77.73%。加入適量的甲醛交聯劑使堿木質素、聚乙烯醇、尿素、甲醛之間髮生化學反應,線性和網狀結構交互從而使薄膜中氮元素緩釋減慢。與共混薄膜( AL-PVA-U)相比,甲醛的交聯作用使薄膜的結晶度降低。薄膜的氮元素纍積釋放率麯線呈“S”型趨勢,Ritger-Peppas模型和2次多項式模型擬閤較好,相關繫數(R2)分彆為0.9763和0.9509,Ritger-Peppas模型中n為0.8167,說明氮元素釋放規律是擴散和溶蝕綜閤作用的結果。
채용교련법제비료감목질소-취을희순-뇨소-갑철( AL-PVA-U-F)교련박막,분석감목질소( AL)화교련제갑철( F)적가입량대담원소완석적영향,연구박막대담원소적완석궤리,병채용XRD화FT-IR-ATR방법분석박막적결정도화화학결구,결과현시감목질소적가입가강저박막중담원소적완석속솔,사담원소체도석방평형적시간증대,감목질소화취을희순질량비5∶5시복합박막192 h시체도석방평형,석방평형시간최장,담원소루적석방솔최대위77.73%。가입괄량적갑철교련제사감목질소、취을희순、뇨소、갑철지간발생화학반응,선성화망상결구교호종이사박막중담원소완석감만。여공혼박막( AL-PVA-U)상비,갑철적교련작용사박막적결정도강저。박막적담원소루적석방솔곡선정“S”형추세,Ritger-Peppas모형화2차다항식모형의합교호,상관계수(R2)분별위0.9763화0.9509,Ritger-Peppas모형중n위0.8167,설명담원소석방규률시확산화용식종합작용적결과。
Alkaline lignin-poly (vinyl alcohol)-urea (AL-PVA-U) film was prepared by crosslinking with formaldehyd (F) . The effects of alkaline lignin and formaldehyde on nitrogen release, as well as the release mechanism, were investigated. The films were characterized by XRD and FT-IR-ATR. The result showed that the addition of alkaline lignin limited the release of nitrogen in the film and resulted in an increase of the release balance time. The fastest release rate was observed as alkaline lignin and polyvinyl alcohol as blended with 5∶5 ratio,and the maximum release balance time as well as the highest accumulative release rate achieved under this condition represented 192 h and 77. 73%, respectively. Proper amount of formaldehyde facilitated the crosslinking among alkaline lignin, polyvinyl alcohol and urea. The formation of linear and reticular structures restricted the release of the nitrogen in the films. Compared with the blend film,the crystallinity of the crossed alkaline lignin-polyvinyl alcohol-urea film decreased. The curve of nitrogen cumulative release rate displayed aS pattern. The correlation coefficients of Ritger-Peppas model and Quadratic polynomial model were 0. 950 9 and 0. 976 3,respectively. The release index (n) of Ritger-Peppas model was 0. 816 7, which indicated that the release mechanism of nitrogen was the comprehensive effects of diffusion and erosion.