The fungus-resistant materials,fungus-resistant painting,and organic anti-fungus agents usually used were enumerated.
根据霉菌生长的条件,从产品的结构设计、材料选取、工艺防护、使用防霉剂等方面对提高军用电子装备防霉抗霉能力进行了阐述,并列举了常用的抗霉材料、防霉涂料和有机防霉剂。
The fungus growth on carbon-free culture medium in photocatalyst antifungal test did not inf.
结论,光触媒抗霉试验:制备霉菌孢子用马铃薯蔗糖培养基;抗霉试验用培养基选择基础无碳源培养基;使用霉菌孢子悬液浓度为104cfu/m l;试验载体为纯棉布片;采用6 W日光灯照射;试验在温度28℃、相对湿度90%条件下,培养观察14~28 d。
In order to study the method for evaluating the antimicrobial efficacy of photocatalyst,fungi were used as the antimicrobial object and different carriers,culture media and test fungal concentrations were used to observe their influences on antifungal efficacy.
为研究光触媒抗菌效果评价方法,以霉菌为抗菌对象,用不同载体、培养基和染菌浓度对抗霉效果影响进行了试验观察。
Inhibitory effect of agarohexaose on antimycin A induced generation of reactive oxygen species;
琼六糖对抗霉素A引起的肝细胞内间接氧化损伤的保护作用
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