研究生: |
莊英泰 Ying-Tai Chuang |
---|---|
論文名稱: |
金屬玻璃鍍層應用於刺青針之人體實驗及修整裝置之研究 Beneficial Effects of Metallic Glass Coating on Tattoo Needles and Conditioning Device |
指導教授: |
朱瑾
Jinn Chu |
口試委員: |
朱瑾
Jinn Chu 陳炤彰 Chao-Chang A. Chen 朱閔聖 Min-Sheng Chu 曾元生 Yuan-Sheng Tseng |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 材料科學與工程系 Department of Materials Science and Engineering |
論文出版年: | 2022 |
畢業學年度: | 110 |
語文別: | 英文 |
論文頁數: | 173 |
中文關鍵詞: | 刺青針 、修整裝置 、金屬玻璃鍍層 |
外文關鍵詞: | Tattoo needles, conditioning devices, TFMG |
相關次數: | 點閱:164 下載:0 |
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1. TATTOOS-INTRO, A Brief Introduction to Tattoo Art. 2012).
2. History of Tattoos - Meaning and Origin. 2022).
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6. M. Falconi, G. Teti, M. Zago, A. Galanzi, L. Breschi, S. Pelotti, A. Ruggeri, G. Mazzotti, Influence of a commercial tattoo ink on protein production in human fibroblasts, Arch Dermatol Res 301(7) (2009) 539-47.
7. M.D. Pazos, Y. Hu, Y. Elani, K.L. Browning, N. Jiang, A.K. Yetisen, Tattoo Inks for Optical Biosensing in Interstitial Fluid, Adv Healthc Mater 10(21) (2021) e2101238.
8. M. Giulbudagian, I. Schreiver, A.V. Singh, P. Laux, A. Luch, Safety of tattoos and permanent make-up: a regulatory view, Arch Toxicol 94(2) (2020) 357-369.
9. M. Dirks, Tattooed Skin and Health, 2015.
10. G. Forte, F. Petrucci, A. Cristaudo, B. Bocca, Market survey on toxic metals contained in tattoo inks, Sci Total Environ 407(23) (2009) 5997-6002.
11. B. Battistini, F. Petrucci, I. De Angelis, C.M. Failla, B. Bocca, Quantitative analysis of metals and metal-based nano- and submicron-particles in tattoo inks, Chemosphere 245 (2020) 125667.
12. Tattoo Healing Process and Stages. 2019).
13. B. Chris, Stages of Tattoo Healing Process. 2022).
14. David, ABOUT TATTOO NEEDLES. 2012).
15. Shero, TATTOO NEEDLES & CODES. 2014).
16. Tattoo Needles Guide. 2021).
17. N. Pinela, Tattoo Needle Sizes And Uses: A Guide For The Best Tattoo, (2021).
18. M.N. Krishnan, J. W.
Cook, L. M., Chemical Mechanical Planarization Slurry Chemistry, Materials, and Mechanisms, (2009).
19. H. Lee, H. Kim, H. Jeong, Approaches to Sustainability in Chemical Mechanical Polishing (CMP): A Review, International Journal of Precision Engineering and Manufacturing-Green Technology 9(1) (2021) 349-367.
20. H. Lee, S. Lee, Investigation of pad wear in CMP with swing-arm conditioning and uniformity of material removal, Precision Engineering 49 (2017) 85-91.
21. D. Zhao, X. Lu, Chemical mechanical polishing: Theory and experiment, Friction 1(4) (2013) 306-326.
22. J.M. Steigerwald, S.P. Murarka, R.J. Gutmann, Chemical mechanical planarization of microelectronic materials, John Wiley & Sons1997.
23. K.H. Park, H.J. Kim, O.M. Chang, H.D. Jeong, Effects of pad properties on material removal in chemical mechanical polishing, Journal of Materials Processing Technology 187-188 (2007) 73-76.
24. M.Y. Tsai, C.H. Chen, J.H. Chiang, T.S. Yeh, Development and Analysis of Double-Faced Radial and Cluster-Arranged CMP Conditioning device, Mathematical Problems in Engineering 2014 (2014) 1-9.
25. M.-Y. Tsai, Polycrystalline diamond shaving conditioner for CMP pad conditioning, Journal of Materials Processing Technology 210(9) (2010) 1095-1102.
26. H.K. Sakamoto, T., Polishing pad conditioner, (2009).
27. R.F. Chen, 具保護膜之研磨工具修整器及其保護膜成形方法, (2011).
28. Y. Guo, H. Lee, Y. Lee, H. Jeong, Effect of pad groove geometry on material removal characteristics in chemical mechanical polishing, International Journal of Precision Engineering and Manufacturing 13(2) (2012) 303-306.
29. W. Klement, R. Willens, P. Duwez, Non-crystalline structure in solidified gold–silicon alloys, Nature 187(4740) (1960) 869-870.
30. J.P. Chu, J.S.C. Jang, J.C. Huang, H.S. Chou, Y. Yang, J.C. Ye, Y.C. Wang, J.W. Lee, F.X. Liu, P.K. Liaw, Y.C. Chen, C.M. Lee, C.L. Li, C. Rullyani, Thin film metallic glasses: Unique properties and potential applications, Thin Solid Films 520(16) (2012) 5097-5122.
31. C.H. Chang, C.M. Lee, J.P. Chu, P.K. Liaw, S.C.J. Jang, Fatigue property improvements of ZK60 magnesium alloy: Effects of thin film metallic glass, Thin Solid Films 616 (2016) 431-436.
32. H. Jia, F. Liu, Z. An, W. Li, G. Wang, J.P. Chu, J.S. Jang, Y. Gao, P.K. Liaw, Thin-film metallic glasses for substrate fatigue-property improvements, Thin Solid Films 561 (2014) 2-27.
33. J.P. Chu, C.C. Yu, Y. Tanatsugu, M. Yasuzawa, Y.L. Shen, Non-stick syringe needles: Beneficial effects of thin film metallic glass coating, Sci Rep 6 (2016) 31847.
34. L. Huang, C. Pu, R.K. Fisher, D.J. Mountain, Y. Gao, P.K. Liaw, W. Zhang, W. He, A Zr-based bulk metallic glass for future stent applications: Materials properties, finite element modeling, and in vitro human vascular cell response, Acta Biomater 25 (2015) 356-68.
35. J.P. Chu, T.Y. Liu, C.L. Li, C.H. Wang, S.C. Jang, M.J. Chen, S.H. Chang, W.C. Huang, Fabrication and characterizations of thin film metallic glasses:
Antibacterial property and durability study for medical application, (2014).
36. C.-N. Cai, C. Zhang, Y.-S. Sun, H.-H. Huang, C. Yang, L. Liu, ZrCuFeAlAg thin film metallic glass for potential dental applications, Intermetallics 86 (2017) 80-87.
37. P.-T. Chiang, G.-J. Chen, S.-R. Jian, Y.-H. Shih, J.S.-C. Jang, C.-H. Lai, Surface antimicrobial effects of Zr61Al7. 5Ni10Cu17. 5Si4 thin film metallic glasses on Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, Acinetobacter baumannii and Candida albicans, Fooyin Journal of Health Sciences 2(1) (2010) 12-20.
38. C.-H. Chang, C.-L. Li, C.-C. Yu, Y.-L. Chen, S. Chyntara, J.P. Chu, M.-J. Chen, S.-H. Chang, Beneficial effects of thin film metallic glass coating in reducing adhesion of platelet and cancer cells: Clinical testing, Surface and Coatings Technology 344 (2018) 312-321.
39. J.P. Chu, W.C. Liao, P. Yiu, M.T. Chiou, K.H. Su, Metallic glass coating for improved needle tattooing performance in reducing trauma: analysis on porcine and pig skins, Sci Rep 10(1) (2020) 20318.
40. J.P. Chu, B.Z. Lai, P. Yiu, Y.L. Shen, C.W. Chang, Metallic glass coating for improving diamond dicing performance, Sci Rep 10(1) (2020) 12432.
41. J. Shen, X. Zhu, J. Chen, P. Tao, X. Wu, Investigation on the Edge Chipping in Ultrasonic Assisted Sawing of Monocrystalline Silicon, Micromachines (Basel) 10(9) (2019).
42. Magnetron sputtering: overview.
43. 張家豪, 金屬玻璃鍍層用於提升鎂合金疲勞性質, 降低高速鋼鑽頭鑽孔溫度及降低風阻研究., (2019).
44. C.-C.A. Chen, J.-C. Li, W.-C. Liao, Y.-J. Ciou, C.-C. Chen, Dynamic Pad Surface Metrology Monitoring by Swing-Arm Chromatic Confocal System, Applied Sciences 11(1) (2020).
45. C.-C.A.C. Chen, C. H. Wang, P. K., Development of 3D confocal laser measurement instrument for polishing pad analysis with fractal dimension and bearing ratio methods, (2014).
46. C.-C.A.C. Chen, Y. T., Research of dressing break-in time of polishing pad for Cu-chemical mechanical polishing process, (2014).
47. L.C. Kaplonek W., Coherence Correlation Interferometry in surface topography measurements., (2012).