Fabrication and Characterization of Superhydrophobic and Hig
发布时间:2021-10-17 15:43
Superhydrophobicity and oleophobicity which have been discovered from natural world are definitely anticipated to be beneficial for a large number of practical applications Imitation of nature has been the most appreciable way to develop the structural properties for coating fabrication,due to millions of creatures including botanical,insect and zoological species,which have the ability to be resistant from water and low surface tension fluids.Mechanically robust superhydrophobic and oleophobic ...
【文章来源】:浙江理工大学浙江省
【文章页数】:73 页
【学位级别】:硕士
【文章目录】:
Acknowledgements
Abstract
CHAPTER 1 INTRODUCTION
1.1. Background of study
1.1.1. Basical theory of superhydrophobicity and oleophobicity
1.1.2. Necessity of superhydrophobicity and oleophobicity for silk fabrics
1.1.3. Fabrication of superhydrophobic and oleophobic silk fabrics
1.1.4. Research methods
1.2. Aim
CHAPTER 2 LITERATURE REVIEW
2.1. Chapter introduction
2.2. Recent works of fabrication of hydrophobic and oleophobic silk fabric
2.2.1. Atomic layer deposition method
2.2.2. Enzyme etching method
2.2.3. Sol-gel method
2.2.4. Ion beam method
2.2.5. Plasma treatment method
2.2.6. Spray coating method
2.3. Potential applications of multifunctional silk fabric
2.3.1. Superamphiphobic silk fabrics
2.3.2. Self-cleaning activities
2.3.3. Abrasion-resistant properties
2.3.4. Wearing comfort
2.4. Chapter conclusions
CHAPTER 3 FABRICATING SUPERHYDROPHOBIC SILK FABRICS WITH FLUORINE-FREECOATINGS
3.1. Chapter introduction
3.2. Materials and method
3.2.1. Materials
3.2.2. Methods
3.2.3. Characterization
3.3. Results and discussion
3.3.1. Effect of SiO_2 nanoparticle size and concentration on fabric wettability
3.3.2. Effect of chain length of silanes on fabric wettability and morphology
3.3.3. Surface compositions of superhydrophobic silk fabrics
3.3.4. Durability of superhydrophobic silk fabrics
3.3.5. Self-cleaning properties
3.3.6. Physical properties of the superhydrophobic silk fabrics
3.4. Chapter conclusions
CHAPTER 4 FABRICATION OF HIGHLY HYDROPHOBIC AND OLEOPHOBIC SILK FABRICWITH ENVIRONMENT-FRIENDLY FLUORINATED CHEMICALS
4.1.Chapter introduction
4.2. Material and method
4.2.1. Materials
4.2.2. Methods
4.2.3. Characterization
4.3. Results and discussion
4.3.1. Analysis of wettability of silk fabric surface
4.3.2. Analysis of surface morphology
4.3.3. Surface compositions of silk fabrics
4.3.4. Laundering durability and self-cleaning performance
4.3.5. Wearability and mechanical properties
4.4. Chapter conclusions
CHAPTER 5 CONCLUSIONS
5.1. Research conclusions
5.2. Future works
References
Publications
【参考文献】:
期刊论文
[1]Nanoparticles assembly-induced special wettability for bio-inspired materials[J]. Shuai Yang,Xu Jin,Kesong Liu,Leijiang. Particuology. 2013(04)
本文编号:3442007
【文章来源】:浙江理工大学浙江省
【文章页数】:73 页
【学位级别】:硕士
【文章目录】:
Acknowledgements
Abstract
CHAPTER 1 INTRODUCTION
1.1. Background of study
1.1.1. Basical theory of superhydrophobicity and oleophobicity
1.1.2. Necessity of superhydrophobicity and oleophobicity for silk fabrics
1.1.3. Fabrication of superhydrophobic and oleophobic silk fabrics
1.1.4. Research methods
1.2. Aim
CHAPTER 2 LITERATURE REVIEW
2.1. Chapter introduction
2.2. Recent works of fabrication of hydrophobic and oleophobic silk fabric
2.2.1. Atomic layer deposition method
2.2.2. Enzyme etching method
2.2.3. Sol-gel method
2.2.4. Ion beam method
2.2.5. Plasma treatment method
2.2.6. Spray coating method
2.3. Potential applications of multifunctional silk fabric
2.3.1. Superamphiphobic silk fabrics
2.3.2. Self-cleaning activities
2.3.3. Abrasion-resistant properties
2.3.4. Wearing comfort
2.4. Chapter conclusions
CHAPTER 3 FABRICATING SUPERHYDROPHOBIC SILK FABRICS WITH FLUORINE-FREECOATINGS
3.1. Chapter introduction
3.2. Materials and method
3.2.1. Materials
3.2.2. Methods
3.2.3. Characterization
3.3. Results and discussion
3.3.1. Effect of SiO_2 nanoparticle size and concentration on fabric wettability
3.3.2. Effect of chain length of silanes on fabric wettability and morphology
3.3.3. Surface compositions of superhydrophobic silk fabrics
3.3.4. Durability of superhydrophobic silk fabrics
3.3.5. Self-cleaning properties
3.3.6. Physical properties of the superhydrophobic silk fabrics
3.4. Chapter conclusions
CHAPTER 4 FABRICATION OF HIGHLY HYDROPHOBIC AND OLEOPHOBIC SILK FABRICWITH ENVIRONMENT-FRIENDLY FLUORINATED CHEMICALS
4.1.Chapter introduction
4.2. Material and method
4.2.1. Materials
4.2.2. Methods
4.2.3. Characterization
4.3. Results and discussion
4.3.1. Analysis of wettability of silk fabric surface
4.3.2. Analysis of surface morphology
4.3.3. Surface compositions of silk fabrics
4.3.4. Laundering durability and self-cleaning performance
4.3.5. Wearability and mechanical properties
4.4. Chapter conclusions
CHAPTER 5 CONCLUSIONS
5.1. Research conclusions
5.2. Future works
References
Publications
【参考文献】:
期刊论文
[1]Nanoparticles assembly-induced special wettability for bio-inspired materials[J]. Shuai Yang,Xu Jin,Kesong Liu,Leijiang. Particuology. 2013(04)
本文编号:3442007
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