包装学报
包裝學報
포장학보
PACKAGING JOURNAL
2012年
1期
19-23
,共5页
载银沸石%抑菌性能%防霉性能%机械性能%白度%平滑度
載銀沸石%抑菌性能%防黴性能%機械性能%白度%平滑度
재은비석%억균성능%방매성능%궤계성능%백도%평활도
silver-loaded zeolite%antibacterial property%anfifungal property%mechanism property%whiteness%smoothness
研究了不同添加质量(或添加质量浓度)的载银沸石对牛皮纸、白卡纸和铜版纸的抑茵防霉效果及机械性能、白度、平滑度等印刷适性的影响。结果表明:1)当纸张中载银沸石的添加质量浓度为1000mg/L时,大肠杆菌的抑菌环直径达21.5mm,由此可知,载银沸石能较好地抑制大肠杆菌的生长。2)当纸张中载银沸石的添加质量为1.02时,纸张完全无霉菌生长,且纸张边缘的茵丝也未见长出,由此可知,载银沸石对黑曲霉具有一定的抑制效果。3)不同添加质量的载银沸石对纸张的机械性能、白度和平滑度有一定影响,但影响较小。故当栽银沸石的添加质量为0.5~1.0g时,纸张不仅具有较好的抑菌防霉效果,且其机械性能、白度和平滑度没有明显变化。
研究瞭不同添加質量(或添加質量濃度)的載銀沸石對牛皮紙、白卡紙和銅版紙的抑茵防黴效果及機械性能、白度、平滑度等印刷適性的影響。結果錶明:1)噹紙張中載銀沸石的添加質量濃度為1000mg/L時,大腸桿菌的抑菌環直徑達21.5mm,由此可知,載銀沸石能較好地抑製大腸桿菌的生長。2)噹紙張中載銀沸石的添加質量為1.02時,紙張完全無黴菌生長,且紙張邊緣的茵絲也未見長齣,由此可知,載銀沸石對黑麯黴具有一定的抑製效果。3)不同添加質量的載銀沸石對紙張的機械性能、白度和平滑度有一定影響,但影響較小。故噹栽銀沸石的添加質量為0.5~1.0g時,紙張不僅具有較好的抑菌防黴效果,且其機械性能、白度和平滑度沒有明顯變化。
연구료불동첨가질량(혹첨가질량농도)적재은비석대우피지、백잡지화동판지적억인방매효과급궤계성능、백도、평활도등인쇄괄성적영향。결과표명:1)당지장중재은비석적첨가질량농도위1000mg/L시,대장간균적억균배직경체21.5mm,유차가지,재은비석능교호지억제대장간균적생장。2)당지장중재은비석적첨가질량위1.02시,지장완전무매균생장,차지장변연적인사야미견장출,유차가지,재은비석대흑곡매구유일정적억제효과。3)불동첨가질량적재은비석대지장적궤계성능、백도화평활도유일정영향,단영향교소。고당재은비석적첨가질량위0.5~1.0g시,지장불부구유교호적억균방매효과,차기궤계성능、백도화평활도몰유명현변화。
Taking E.coli and Aspergillus niger as examples, antibacterial and antifungal effects of silver-loaded zeolite with different additions in kraft paper were detected. Result shows that when the concentration of antibacterial agent in paper is 1 000 mg/L, the inhibition zone reaches 21.5 mm. It can be seen that the growth of E.coli can be inhibited greatly by silver-loaded zeolite. While the quality of antibacterial agent added in paper is 1.0 g, Aspergillus niger can be inhibited effectively in paper and mycelium cannot grow at the edge of paper, so silver-loaded zeolite has a certain effect on Aspergillus niger. Silver-loaded zeolite with different additions have has very limited impact on mechanism property, whiteness, smoothness of paper. Therefore, While the additions of antibacterial agent are between 0.5 g and 1.0 g, the growth of E.coli and Aspergillus niger can be effectively inhibited by antibacterial paper while mechanism properties, whiteness, smoothness of these papers are not dramatically affected.