2026-03-14T23:34:50Z
https://kit.repo.nii.ac.jp/oai
oai:kit.repo.nii.ac.jp:02000405
2026-01-21T05:29:26Z
1753926516427:1753929991454:1753935964490
Fabrication of collagen-based materials and analyses of the structure and properties
コラーゲンを素材とした材料の成形とその構造物性解析
CHEN, XUEFEI
チン, セツヒ
open access
Collagen film
Natural sheep casing
Structure
Crosslinking
Mechanical property
Dehydrothermal treatment
Denaturation
Electrospinning
Collagen tube
Morphology
Glutaraldehyde treatment
Ammonia treatment
Combined treatment
This dissertation focuses on two types of collagen-based biomaterials: collagen film for sausage casing and collagen tube for tissue engineered scaffold. The structure and properties differences between natural casing and artificial collagen films were investigated. The thick collagen fibers interwove into a high-density network structure, giving natural casing the special mouthfeel of ‘cracking bite’. Whereas, layered structure filled with fine collagen fibrils and large gaps in collagen film resulted in poor mechanical properties and higher swelling ratio. Accordingly, glutaraldehyde (GTA) treatment and dehydrothermal (DHT) treatment were applied to improve the properties of collagen film. Due to the formation of crosslinking, collagen films with treatments showed higher mechanical properties and lower swelling ratio compared to the untreated collagen film. To improve the efficiency of DHT treatment, the relationship among the treatment conditions including temperature and time, crosslinking and denaturation was discussed. The degree of crosslinking increased with increasing treatment temperature and time, contributing to the continuous improvement of mechanical properties. Meanwhile, the denaturation of collagen was detected according to the changes of collagen high order structure. Increase of treatment temperature and time leaded to the increase of denaturation degree, resulting in the deterioration of mechanical properties at higher temperature or for longer time. Collagen tube with smooth and random continuous nanofibers was fabricated by adjusting the parameters of electrospinning. Then various post-treatments were applied to enhance the properties of collagen tube. Ammonia treatment can recovery the higher order structure of collagen partially but had no influence on preserving the morphology and improving mechanical properties of collagen tube in wet state. Crosslinking treatments including GTA treatment and DHT treatment can improve the mechanical properties of collagen tube. By comparison, GTA treatment had the higher efficiency to improve the properties and can preserve the morphology of collagen fibers in wet state.
2020-09-24
eng
doctoral thesis
http://hdl.handle.net/10212/2606
https://kit.repo.nii.ac.jp/records/2000405
甲第978号
博士(工学)
2020-09-24
京都工芸繊維大学
https://kit.repo.nii.ac.jp/record/2000405/files/D1-0978_y1.pdf
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https://kit.repo.nii.ac.jp/record/2000405/files/D1-0978.pdf
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