大学物理实验
大學物理實驗
대학물리실험
PHYSICAL EXPERIMENT OF COLLEGE
2015年
3期
62-65
,共4页
廉盟%汪静%曲冰%潘超%迟建卫
廉盟%汪靜%麯冰%潘超%遲建衛
렴맹%왕정%곡빙%반초%지건위
马面鲀%铸膜润湿性
馬麵鲀%鑄膜潤濕性
마면돈%주막윤습성
leatherjacket%nanocasting%wettability
以具有防污功能的马面鲀皮为生物复制模板,采用铸膜方法对其微观形貌进行了大面积复制,并对复制表面的润湿性进行了分析研究。研究结果表明,复制的PDMS样品表面产生了与生物样品一致性较好的绒毛结构。该结构大大增加了表面的疏水性,将使海洋生物附着的难度大幅度增大,从而改善表面的污损释放性能。
以具有防汙功能的馬麵鲀皮為生物複製模闆,採用鑄膜方法對其微觀形貌進行瞭大麵積複製,併對複製錶麵的潤濕性進行瞭分析研究。研究結果錶明,複製的PDMS樣品錶麵產生瞭與生物樣品一緻性較好的絨毛結構。該結構大大增加瞭錶麵的疏水性,將使海洋生物附著的難度大幅度增大,從而改善錶麵的汙損釋放性能。
이구유방오공능적마면돈피위생물복제모판,채용주막방법대기미관형모진행료대면적복제,병대복제표면적윤습성진행료분석연구。연구결과표명,복제적PDMS양품표면산생료여생물양품일치성교호적융모결구。해결구대대증가료표면적소수성,장사해양생물부착적난도대폭도증대,종이개선표면적오손석방성능。
Superhydrophobic surfaces have attracted much interest for important and practical applications in many fields such as antifouling. Compared with other methods of synthetic surface simulation of the fish skin, the presented method, directly using a natural template and replicating it by casting, is much simpler to control,lacking any complicated processes and chemical treatments. It can also be readily scaled up to create largearea uniform superhydrophobic surface structures and can be applied in commercial manufacturing. It was believed that the functionality of these superhydrophobic flocked surfaces might be related to the effective anti-fouling.
